Showing total 1,223 results

1. Remarks on the Second Paper in the History of the Royal Academy of Sciences, for the Year 1711. concerning the Cause of the Variation of the Barometer: To Shew That the Way of Accounting for It in That Paper is Insufficient, and That the Experiment Made Use of to Prove What is There Asserted, Does no Way Prove It. By J. T. Desaguliers, M. A. F. R. S.

Author

Desaguliers, J. T.

Published

1717

2. Experiments on the Discharge of Electricity through Gases. (Second Paper)

Author

Schuster, Arthur

Published

1887

3. Ecotoxicological Differences of Antimony (III) and Antimony (V) on Earthworms Eisenia fetida (Savingy).

Author

Bai, Jing, Lu, Dan, Chen, Linyu, Liu, Weiying, Zheng, Yu, Xiang, Guohong, Meng, Guiyuan, Lin, Zhong, and Duan, Renyan

Subjects

ANTIMONY, EISENIA foetida, EARTHWORMS, ECOLOGICAL risk assessment, POISONS, FILTER paper

Abstract

In this study, we assessed the acute and chronic toxic effects of Sb (III) and Sb (V) on Eisenia fetida (Savingy) (E. fetida) by applying the filter paper contact method, aged soil treatment, and avoidance test experiment. In the acute filter paper contact test, the LC50 values for Sb (III) were 2581 mg/L (24 h), 1427 mg/L (48 h), and 666 mg/L (72 h), which were lower than Sb (V). In the chronic aged soil exposure experiment, when the Sb (III)-contaminated soil was aged 10 d, 30 d, and 60 d after exposure for 7 d, the LC50 value of E. fetida was 370, 613, and >4800 mg/kg, respectively. Compared to Sb (V) spiked soils aged only for 10 d, the concentrations causing 50% mortality significantly increased by 7.17-fold after 14 days of exposure in soil aged for 60 d. The results show that Sb (III) and Sb (V) could cause death and directly affect the avoidance behavior of E. fetida; yet, the toxicity of Sb (III) was higher than that of Sb (V). Consistent with the decrease in water-soluble Sb, the toxicity of Sb to E. fetida was greatly reduced with time. Therefore, in order to avoid overestimating the ecological risk of Sb with varying oxidative states, it is important to consider the forms and bioavailability of Sb. This study accumulated and supplemented the toxicity data, and provided a more comprehensive basis for the ecological risk assessment of Sb. [ABSTRACT FROM AUTHOR]

Published

2023

4. Controlling information duration on rewritable luminescent paper based on hybrid antimony (III) chloride/small-molecule absorbates

Author

Feng Zhang, Jiabing Yu, Zeping Wang, Ching Ping Wong, Xianping Chen, and Dingli Xie

Subjects

Materials science, Photoluminescence, Materials Science, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, Photochemistry, 01 natural sciences, chemistry.chemical_compound, Antimony, Molecule, Research Articles, Multidisciplinary, digestive, oral, and skin physiology, SciAdv r-articles, 021001 nanoscience & nanotechnology, Small molecule, 0104 chemical sciences, Bond length, Chemistry, chemistry, Absorption (chemistry), 0210 nano-technology, Luminescence, Ethylene glycol, Research Article

Abstract

The controllable response of materials to small-molecule absorbates helps control the information duration on rewritable paper., Controlling the duration that information lasts on paper so that it disappears as desired is crucial for information security. However, this area is rarely studied. Here, we report [TEMA]2SbCl5 (1, TEMA+ = methyltriethylammonium), [TEA]2SbCl5 (2, TEA+ = tetraethylammonium), [TEBA]2SbCl5 (3, TEBA+ = benzyltriethylammonium), and [Ph4P]2SbCl5 (4, Ph4P+ = tetraphenylphosphonium) with structure-dependent reversible photoluminescent switching induced by the absorption and thermal release of small guest molecules including H2O, methanol, and ethylene glycol. Comparing the structural disorder levels, bond lengths, and luminescent Stokes shifts of the compounds aided in understanding their selective absorption behavior. Our results indicated that the information duration on the rewritable paper coated with the title compounds is easily tuned by changing the cation of the compounds, the type of guest molecules, and laser heating power. Our study opens previously unidentified avenues for information security and extends the potential applications of rewritable paper.

Published

2020

5. Supramolecular solvent-based liquid phase extraction of antimony prior to spectrophotometric quantification.

Author

Khan M, Jamshed M, Badhshah A, Nishan U, and Soylak M

Subjects

Environmental Monitoring methods, Humans, Liquid-Liquid Extraction, Solvents chemistry, Antimony analysis, Liquid Phase Microextraction methods

Abstract

Antimony (Sb) is highly hazardous to human health even in minute concentration. Therefore, its accurate and precise determination in the real environmental samples is of immense importance. In this work for the first time, UV-Vis spectrophotometric method was developed for the quantification of Sb(III) from water samples using supramolecular solvent (undecanol-tetrahydrofuran)-based extraction. The maximum absorption wavelength for antomony-diathizone complex was found to be 590 nm having molar absorptivity of 3.1 × 10 4 L.mol.cm -1 . Factors affecting extraction efficiency like solution sample volume, amount of chelating agent, pH, matrix effect, and type and volume of supramolecular solvent were determined and optimized. Analytical parameters like limit of detection (0.19 µg L -1 ), limit of quantification (0.62 µg L -1 ), pre-concentration factor (15), enhancement factor (15), and relative standard deviation for 8 successive analysis (0.8%) were calculated under optimized experimental conditions. The method was applied to real water samples like tap water of laboratory, waste water from Kohat hospitals, and dam water (Tanda dam Kohat) with quantitative addition recovery (94-100%)., (© 2022. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2022

6. Uptake, accumulation and gene response of Sb(Ⅴ) in Arabidopsis thaliana.

Author

Dong Z, He M, Lin C, Ouyang W, and Liu X

Subjects

Gene Expression Regulation, Plant drug effects, Biological Transport, Soil Pollutants toxicity, Arabidopsis genetics, Arabidopsis drug effects, Arabidopsis metabolism, Plant Roots metabolism, Plant Roots drug effects, Antimony toxicity

Abstract

Antimony (Sb) is a toxic pollutant, with Sb(V) being one of its main forms in the environment, but the process and mechanism of plant uptake of Sb(V) remain unclear. To investigate the process of Sb(V) uptake by plants, Arabidopsis thaliana plants were exposed to water culture media supplemented with different Sb(V) concentrations. The distribution, content, and forms of Sb(V) in Arabidopsis roots, and the accumulation and fixation of Sb(V) in Arabidopsis plants were studied. In addition, inhibitor experiments and analyses of gene expression changes were conducted to elucidate the underlying mechanism of its toxicity. Sb(V) entering the roots was mainly adsorbed on the cell wall, and the Sb(V) content in both apoplastic solution and symplastic solution increased with increasing external Sb(V) concentration. Sb(V) concentration in apoplast and symplast were approximately linearly correlated (R 2 =0.980), indicating low affinity of cells for Sb(V) absorption. Moreover, uncouplers significantly inhibited the entry of Sb(V) into the symplast, suggesting that the transmembrane transport of Sb(V) is energy-consuming. Sb(V) entering the cell could be partially reduced to Sb(III), and significant changes in glutathione metabolism gene expression were detected, indicating the important role of glutathione metabolism in the detoxification of Sb(V). From the perspective of the whole plant, although Sb(V) is absorbed by the roots, it is mainly fixed in the leaves and stems. This study revealed the pattern of Sb(V) uptake by plants and elucidated the mechanism of Sb(V) uptake by plants from the perspectives of kinetics, physiology, and genetics., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

7. Post-calcination as an effective approach to enhance adsorption of arsenic and antimony anions by Mg/Al layered double hydroxide-decorated spent coffee ground biochars: Role of charge properties and active sites.

Author

Shin J, Lee SH, Kwak J, Son C, Kim S, Lee YG, Kim HJ, Rho H, Park Y, and Chon K

Subjects

Adsorption, Water Pollutants, Chemical chemistry, Coffee chemistry, Aluminum chemistry, Magnesium chemistry, Kinetics, Charcoal chemistry, Arsenic chemistry, Antimony chemistry, Anions chemistry, Hydroxides chemistry

Abstract

This study evaluated the effects of post-calcination on the charge properties and active sites of Mg/Al layered double hydroxide-decorated spent coffee ground biochars (LDH MgAl @SCGB) governing adsorption behaviors and mechanisms of arsenic (As V ) and antimony (Sb V ) anions from aqueous phases. Post-calcinated LDH MgAl @SCGB (PLDH MgAl @SCGB) exhibited higher adsorption capacities for As V and Sb V compared to spent coffee ground biochars (SCGB) and LDH MgAl @SCGB as post-calcination of LDH MgAl @SCGB enhanced the charge properties (surface zeta potential at pH 7.0: SCGB = -21.8 mV, LDH MgAl @SCGB = 28.5 mV, and PLDH MgAl @SCGB = 34.4 mV) and increased active sites by eliminating the anions (i.e., Cl - ions) and water molecules at its interlayers. The calculated kinetic, intra-particle diffusion, and isotherm parameters indicated that the chemisorption and intra-particle diffusion were mainly responsible for the adsorption of As V and Sb V by SCGB, LDH MgAl @SCGB, and PLDH MgAl @SCGB. Moreover, post-calcination of LDH MgAl @SCGB enhanced its selectivity toward As V and Sb V by reinforcing the electrostatic surface complexation via its improvement of charge properties. Since PLDH MgAl @SCGB exhibited the excellent reusability for the adsorption of As V (reuse efficiency >63.6%) and Sb V (reuse efficiency >52.1%), it can be concluded that post-calcination of LDH MgAl @SCGB is a promising method for improving the adsorption capacities for As V and Sb V in real water matrices., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

8. Antimony exposure affects oocyte quality and early embryo development via excessive mitochondrial oxidation and dysfunction.

Author

Wang X, Wu X, Ma W, Wang Q, Chen Y, Zhao X, and Lu Y

Subjects

Animals, Female, Mice, Oxidative Stress drug effects, Male, Apoptosis drug effects, Oocytes drug effects, Mice, Inbred ICR, Mitochondria drug effects, Embryonic Development drug effects, Antimony toxicity, Oxidation-Reduction

Abstract

Antimony (Sb) is a metalloid, widely presents in the environment and associates with human health. In this study, we aimed to decipher whether Sb exposure is harmful to female reproduction and explore the underlying mechanisms. The ICR mice were exposed to 0, 5, 10, and 20 mg/kg acetate potassium Sb tartrate trihydrate by intraperitoneal injection for 10 days, then mouse oocytes were collected for further analysis. We first found a significant decrease in the proportion of MII-stage oocytes obtained from supernumerary ovulation in the fallopian tubes and early embryo development under Sb treatment. Then a series of tests showed Sb affects oocyte maturation by damaging the cytoskeleton of microtubule and actin. Moreover, the abnormal distribution of cortical granules and their component Ovastacin in oocytes, combined with reduced expression levels of Juno, affected sperm-oocyte binding and led to fertilization failure. Based on the sequencing results and experimental validation, it was demonstrated that Sb exposure impairs mitochondrial distribution and membrane potential, elevated levels of mitochondrial superoxide, finally caused energy supply deficits. Mitochondrial damage in oocytes after Sb exposure results in the excessive oxidative stress and early apoptosis. Taken together, these data suggest that Sb exposure decreases oocyte quality and female fertilization ability by impairing mitochondrial function and redox perturbation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

9. Toxicity and related molecular mechanisms of Sb(III) in the embryos and larvae of zebrafish (Danio rerio).

Author

Lai Z, Wei Y, He M, Lin C, Ouyang W, and Liu X

Subjects

Animals, Reactive Oxygen Species metabolism, Apoptosis drug effects, Ferroptosis drug effects, Zebrafish, Larva drug effects, Larva metabolism, Water Pollutants, Chemical toxicity, Antimony toxicity, Embryo, Nonmammalian drug effects, Embryo, Nonmammalian metabolism

Abstract

Antimony (Sb) pollution poses a severe threat to humans and ecosystems due to the extensive use of Sb in various fields. However, little is known about the toxic effects of Sb and its aquatic ecotoxicological mechanism. This study aimed to reveal the toxicity and related molecular mechanisms of trivalent Sb (Sb(III)) in zebrafish embryos/larvae. Sb(III) accumulated in larvae, which correlated with the exposure concentration. Although no significant lethal or teratogenic effects were observed, normal growth and development were affected. Exposure to 10 or 20 mg/L Sb(III) increased the levels of reactive oxygen species in the larvae while enhancing catalase activity and increasing cell apoptosis. Transcriptomic analysis revealed that Sb(III) promoted glutathione metabolism and the ferroptosis pathway. In addition, symptoms associated with ferroptosis, including mitochondrial damage, biochemical levels of related molecules and increased tissue iron content, were detected. Quantitative polymerase chain reaction (qPCR) analyses further confirmed that Sb(III) significantly altered the transcription levels of genes related to the ferroptosis pathway by disrupting iron homeostasis. Furthermore, ferrostatin-1 (Fer-1) mitigated the toxic effects induced by Sb(III) in zebrafish. Our research fills the gap in the literature on the toxicity and mechanism of Sb(III) in aquatic organisms, which is highly important for understanding the ecological risks associated with Sb., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

10. Phosphine‐Stabilized Pnictinidenes

Author

Klaus Eichele, Lars Wesemann, Dominik Raiser, and Hartmut Schubert

Subjects

antimony, chemistry.chemical_element, Chloride, Catalysis, Metal, chemistry.chemical_compound, Antimony, medicine, phosphorus, Electron pair, Full Paper, Organic Chemistry, arsenic, General Chemistry, Full Papers, pnictides, Oxidative addition, germanium, Crystallography, chemistry, Phosphinidene, visual_art, Intramolecular force, visual_art.visual_art_medium, Phosphine, medicine.drug

Abstract

The reaction of the intramolecular germylene‐phosphine Lewis pair (o‐PPh2)C6H4GeAr* (1) with Group 15 element trichlorides ECl3 (E=P, As, Sb) was investigated. After oxidative addition, the resulting compounds (o‐PPh2)C6H4(Ar*)Ge(Cl)ECl2 (2: E=P, 3: E=As, 4: E=Sb) were reduced by using sodium metal or LiHBEt3. The molecular structures of the phosphine‐stabilized phosphinidene (o‐PPh2)C6H4(Ar*)Ge(Cl)P (5), arsinidene (o‐PPh2)C6H4(Ar*)Ge(Cl)As (6) and stibinidene (o‐PPh2)C6H4(Ar*)Ge(Cl)Sb (7) are presented; they feature a two‐coordinate low‐valent Group 15 element. After chloride abstraction, a cyclic germaphosphene [(o‐PPh2)C6H4(Ar*)GeP] [B(C6H3(CF3)2)4] (8) was isolated. The 31P NMR data of the germaphosphene were compared with literature examples and analyzed by quantum chemical calculations. The phosphinidene was treated with [iBu2AlH]2, and the product of an Al−H addition to the low‐valent phosphorus atom (o‐PPh2)C6H4(Ar*)Ge(H)P(H)Al(C4H9)2 (9) was characterized., Treating a germylene‐phosphine Lewis pair, 1, with trichlorides of phosphorus, arsenic, and antimony allowed the isolation of oxidative addition products. Reduction of these compounds with sodium metal or LiBHEt3 led to the synthesis of a phosphinidene, an arsinidene and a stibinidene. After halide abstraction, a germaphosphene, 8, was isolated, and its 31P NMR data were analyzed by using quantum chemical calculations. The product of an Al−H addition was found upon treating the phosphinidene with [iBu2AlH]2.

Published

2021

11. Diphosphanylmetallocenes of Main‐Group Elements

Author

Carsten Müller, Joshua Warken, Michael Zimmer, Bernd Morgenstern, André Schäfer, Volker Huch, and Inga-Alexandra Bischoff

Subjects

chemistry.chemical_classification, Full Paper, Metallocenes, group 14, 010405 organic chemistry, Magnesium, antimony, Organic Chemistry, chemistry.chemical_element, General Chemistry, Full Papers, magnesium, 010402 general chemistry, 01 natural sciences, Catalysis, 0104 chemical sciences, Coordination complex, heterobimetallic complexes, Transmetalation, Crystallography, Character (mathematics), chemistry, Main group element, Group (periodic table), Reactivity (chemistry)

Abstract

Several 1,1′‐diphosphanyl‐substituted metallocenes of magnesium (magnesocenes) were synthesized, structurally characterized, and their reactivity and coordination chemistry were investigated. Transmetalation of these magnesocenes gives access to group 14 metallocenes (tetrelocenes), as well as to group 15 stibonocenes. These s‐ and p‐block metallocenes represent a novel class of bis(phosphanyl) ligands, exhibiting Lewis‐amphiphilic character. Their coordination chemistry towards different transition‐metal and main‐group fragments was investigated and different complexes are presented., Magnesium and p ‐block metallocenes: The synthesis and structures of diphosphanylmetallocenes of s‐ and p‐block elements are described, including the first group 15 diphosphanylmetallocene. Their application as ligands in coordination chemistry was demonstrated for different metal fragments and the reactivity of a magnesocene towards small molecules was investigated.

Published

2021

12. Combined transcriptome and metabolome analysis reveals the toxic effects of antimony on the earthworm.

Author

Bai J, Chen L, Deng Y, Wan J, Xiang G, Chen H, Duan R, and Zheng Y

Subjects

Animals, Metallothionein genetics, Metallothionein metabolism, Oligochaeta drug effects, Oligochaeta genetics, Antimony toxicity, Metabolome drug effects, Transcriptome drug effects, Soil Pollutants toxicity

Abstract

Antimony (Sb) poses a significant ecological threat. This study combines biochemical, pathological, transcriptome, and metabolome analyses to assess the short-term (14-day) toxic impact of two Sb levels (25 mg/kg and 125 mg/kg) on earthworms (Eisenia fetida). Higher Sb concentration caused severe intestinal damage, elevated metallothionein (MT) levels, and reduced antioxidant capacity. Metabolome analysis identifies 404 and 1698 significantly differential metabolites in the two groups. Metabolites such as S(-)-cathinone, N-phenyl-1-naphthylamine, serotonin, 4-hydroxymandelonitrile, and 5-fluoropentylindole contributed to the metabolic responses to Sb stress. Transcriptome analysis shows increased chitin synthesis as a protective response, impacting amino sugar and nucleotide sugar metabolism for cell wall synthesis and damage repair. Integrated analysis indicated that 5 metabolite-gene pairs were found in two Sb levels and 11 enriched pathways were related to signal transduction, carbohydrate metabolism, immune system, amino acid metabolism, digestive system, and nervous system. Therefore, the integration of multiomics approaches enhanced our comprehension of the molecular mechanisms underlying the toxicity of Sb in E. fetida., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

13. Endocrine system, cell growth and death, and energy metabolism induced by Sb(III) exposure in earthworm (Pheretima guillemi) revealed by transcriptome and metabolome analysis.

Author

Chen L, Bai J, Wan J, Song Y, Xiang G, Duan R, and Zheng Y

Subjects

Animals, Metabolomics, Oligochaeta drug effects, Oligochaeta metabolism, Oligochaeta genetics, Metabolome drug effects, Transcriptome drug effects, Antimony toxicity, Energy Metabolism drug effects, Soil Pollutants toxicity

Abstract

Antimony (Sb) is known for its severe and extensive toxicity, and earthworms are considered important indicator organisms in soil ecosystems. Therefore, the present study investigated the mechanism of toxicity of the Sb at different concentrations (50, 200 mg/kg) on earthworms using biochemical indicators, pathological sections, as well as metabolomics and transcriptomics analyses. The results showed that as the exposure concentration increased, both the antioxidant system of earthworms, extent of intestinal damage, and their metabolomic characteristics were significantly enhanced. In the 50 and 200 mg/kg Sb treatment group, 30 and 177 significant differentially changed metabolites (DCMs) were identified, respectively, with the most DCMs being down- and up-regulated, respectively. Metabolomics analysis showed that the contents of dl-tryptophan, glutamic acid, glycine, isoleucine, l-methionine, involved in the protein digestion and absorption as well as aminoacyl-tRNA biosynthesis were significantly up-regulated under the 200 mg/kg treatment. At the transcriptional level, Sb mainly affected the immune system, nervous system, amino acid metabolism, endocrine system, and carbohydrate metabolism in earthworms. The integration of transcriptomic and metabolomic data indicated that high doses of Sb regulated the metabolites and genes related to the oxidative phosphorylation pathway in earthworms. Overall, these results revealed global responses beyond the scope of conventional toxicity endpoints and facilitated a more in-depth and comprehensive assessment of the toxic effects of Sb., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

14. Fast and efficient remediation of antimony-contaminated surface water and field soil using alumina supported Fe-Mn binary oxide.

Author

Gong Y, Bai Y, Ye P, and Li H

Subjects

Adsorption, Manganese Compounds chemistry, Ferric Compounds chemistry, Iron chemistry, Manganese chemistry, Antimony chemistry, Aluminum Oxide chemistry, Soil Pollutants chemistry, Soil Pollutants analysis, Environmental Restoration and Remediation methods, Water Pollutants, Chemical chemistry, Water Pollutants, Chemical analysis, Oxides chemistry, Soil chemistry

Abstract

Antimony (Sb) pollution in surface water and soil has earned extensive attention. Our previous study synthesized a new class of alumina supported Fe-Mn binary oxide (Fe-Mn@Al 2 O 3 ) and found that MnO 2 in the composite oxidized Sb(III) to Sb(V) and FeOOH and Al 2 O 3 played an indispensable role in adsorption of Sb(III) and Sb(V). This study further explored the removal of Sb in surface water and in situ sequestration of Sb in Sb-contaminated field soil via Fe-Mn@Al 2 O 3 . Sb removal from water was pH independent and the removal efficiencies of Sb(III) and total Sb kept constant at 95.4% and 60.5%, respectively, over a pH range of 5.0-10.0. Increasing dissolved organic matter (DOM) from 0 to 22.8 mg/L had negligible effect on Sb(III) removal whereas inhibited the total Sb removal from 60.5% to 51.2%. Dissolved oxygen cannot oxidize aqueous Sb(III), yet, enhanced the Sb(III) removal whereas decreased the total Sb removal. The composite performed well in natural surface water with high DOM and inorganic ligands. In addition, the composite effectively immobilized Sb in field soil. 5% of the composite significantly inhibited the H 2 SO 4 and HNO 3 leachable Sb by 93.6% after 30 d. The amendment transformed the Sb speciation from more easily available fractions (i.e., exchangeable, carbonate-bound, and Fe-Mn oxides-bound species) into more stable fractions (i.e., organic material bound and residual species), leading to declined Sb bioaccessibility and reduced environmental risk. The composite facilitated a long-term stability of Sb in soil. The study demonstrated an easy, fast, and effective strategy for efficient immobilization of Sb in water and soil., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

15. Synergistic promotion of antimony transformation in the interaction of Acidithiobacillus ferrooxidans and pyrite by driving the formation of reactive oxygen species and secondary minerals.

Author

He P, Yang Q, Gu C, Liu M, Li P, Luo T, Chen J, Chen J, Zhu J, and Gan M

Subjects

Adsorption, Hydrogen Peroxide metabolism, Antimony metabolism, Antimony chemistry, Acidithiobacillus metabolism, Iron metabolism, Iron chemistry, Sulfides metabolism, Sulfides chemistry, Oxidation-Reduction, Minerals metabolism, Minerals chemistry, Reactive Oxygen Species metabolism, Mining

Abstract

As one of the important microorganisms in the mining area, the role of iron-sulfur oxidizing microorganisms in antimony (element symbolized as Sb) migration and transformation in mining environments has been largely neglected for a long time. Therefore, the processes of the typical iron-sulfur oxidizing bacterium Acidithiobacillus ferrooxidans (A. ferrooxidans) and pyrite interaction coupled with the migration and transformation of Sb were investigated in this paper. The bio-oxidation process of pyrite by A. ferrooxidans not only accelerates the oxidation rate of Sb(III) to Sb(V) (62.93% of 10 mg L -1 within 4 h), but also promotes the adsorption and precipitation of Sb (32.89 % of 10 mg L -1 within 96 h), and changes in the dosage of minerals, Sb concentration, and pH value affect the conversion of Sb. The characterization results show that the interaction between A. ferrooxidans and pyrite produces a variety of reactive species, such as H 2 O 2 and •OH, resulting in the oxidation of Sb(III). In addition, A. ferrooxidans mediates the formation of stereotyped iron-sulfur secondary minerals that can act as a major driver of Sb (especially Sb(V)) adsorption or co-precipitation. This study contributes to the further understanding of the diversified biogeochemical processes of iron-sulfur oxidizing bacteria-iron-sulfur minerals-toxic metals in mining environments and provides ideas for the development of in-situ treatment technologies for Sb., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

16. Remediation on antimony-contaminated soil from mine area using zero-valent-iron doped biochar and their effect on the bioavailability of antimony.

Author

Ji J, Mu Y, Ma S, Xu S, and Mu X

Subjects

Biological Availability, Antimony chemistry, Charcoal chemistry, Soil Pollutants chemistry, Soil Pollutants analysis, Iron chemistry, Mining, Environmental Restoration and Remediation methods, Soil chemistry

Abstract

Due to the bioavailability and movement of antimony in trophic web, the overexploitation of antimony mine resulted in antimony contamination that harmed the ecology nearby, raising concerns for public health. Whereas, most researches focused on the removal of antimony in the aqueous instead of the immobilization of antimony in the soil. Herein, the immobilized performance of biochar (BC) loaded with nano zero-valent iron (nZVI-BC) on antimony in the soil near the smelting area was researched through pot experiments for the first time, and its stabilization mechanism on antimony was investigated by valent state variation of antimony. The results demonstrated that BC restricted the cation exchange capacity and catalase activity in the soil, while nZVI-BC had a favorable and negative impact on two variables, respectively. The nZVI-BC showed more stable immobilization capacity on antimony over time than BC, whose exchangeable speciation only marginally rose (2%-6%), although the exchangeable speciation of antimony fell both from 15% to 2% after adding the BC and nZVI-BC, The electron attraction force between nZVI-BC and antimony was also intensified owing to the oxidation-reduction process, which was considered as the stabilizing principle of nZVI-BC on antimony in soil. Furthermore, the decreased bioaccumulation factor for the perennial ryegrass (0.46-0.21) and Galinsoga parviflora Cav. (0.26-0.17) stated that the BC effectively mitigated the bioaccumulation risk of antimony., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

17. Microbial synthesis of antimony sulfide to prepare catechol and hydroquinone electrochemical sensor by pyrolysis and carbonization.

Author

Jiang X, Yuan Y, Zhao X, Wan C, Duan Y, and Wu C

Subjects

Sulfides chemistry, Hydroquinones chemistry, Hydroquinones analysis, Catechols analysis, Catechols chemistry, Antimony chemistry, Antimony analysis, Electrochemical Techniques methods, Electrochemical Techniques instrumentation, Pyrolysis

Abstract

The application of antimony sulfide sensors, characterized by their exceptional stability and selectivity, is of emerging interest in detection research, and the integration of graphitized carbon materials is expected to further enhance their electrochemical performance. This study represents a pioneering effort in the synthesis of carbon-doped antimony sulfide materials through the pyrolysis of the mixture of microorganisms and their synthetic antimony sulfide. The prepared materials are subsequently applied to electrochemical sensors for monitoring the highly toxic compounds catechol (CC) and hydroquinone (HQ) in the environment. Via cyclic voltammetry (CV) and impedance testing, we concluded that the pyrolytic product at 700 °C (Sb-700) demonstrated the best electrochemical properties. Differential pulse voltammetry (DPV) revealed impressive separation when utilizing Sb-700/GCE for simultaneous detection of CC and HQ, exhibiting good linearity within the concentration range of 0.1-140 μM. The achieved sensitivities of 24.62 μA μM -1  cm -2 and 22.10 μA μM -1  cm -2 surpassed those of most CC and HQ electrochemical sensors. Meanwhile, the detection limits for CC and HQ were as low as 0.18 μM and 0.16 μM (S/N = 3), respectively. Additional tests confirmed the good selectivity, reproducibility, and long-term stability of Sb-700/GCE, which was effective in detecting CC and HQ in tap water and river water, with recovery rates of 100.7%-104.5% and 96.5%-101.4%, respectively. It provides a method that combines green microbial synthesis and simple pyrolysis for the preparation of electrode materials in CC and HQ electrochemical sensors, and also offers a new perspective for the application of microbial synthesized materials., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

18. Effective immobilization and biosafety assessment of antimony in soil with zeolite-supported nanoscale zero-valent iron.

Author

Zhao Y, Zhang X, Xue H, Gong B, Li Q, Guo W, and Meng X

Subjects

Environmental Restoration and Remediation methods, Adsorption, Animals, Antimony chemistry, Soil Pollutants chemistry, Zeolites chemistry, Iron chemistry, Soil chemistry

Abstract

Antimony (Sb) contamination in certain areas caused by activities such as antimony mining and smelting poses significant risks to human health and ecosystems. In this study, a stable composite material consisting of natural zeolite-supported nanoscale zero-valent iron (Z-ZVI) was successfully prepared. The immobilization effect of Z-ZVI on Sb in contaminated soil was investigated. Experimental results showed that Z-ZVI exhibited superior performance compared to pure nano zero-valent iron (nZVI) in terms of stability, with a lower zeta potential (-25.16 mV) at a pH of 7 and a higher specific surface area (54.54 m 2 /g). It can be easily applied and dispersed in contaminated soils. Additionally, Z-ZVI demonstrated a more abundant porous structure. After 60 days of treatment with 3% Z-ZVI, the leaching concentration of Sb in the contaminated soil decreased from 1.32 mg/L to 0.31 mg/L (a reduction of 76%), and the concentration of available Sb species decreased from 19.84 mg/kg to 0.71 mg/kg, achieving a fixation efficiency of up to 90%. X-ray photoelectron spectroscopy (XPS) and X-ray diffraction (XRD) analysis confirmed the effective immobilization of Sb in the soil through reduction of antimonate to antimonite, precipitation, and adsorption processes facilitated by Z-ZVI. Moreover, the addition of Z-ZVI effectively reduced the bioavailability of Sb in the contaminated soil, thereby mitigating its toxicity to earthworms. In conclusion, Z-ZVI can be utilized as a promising material for the safe remediation and antimony and other heavy metal-contaminated soils., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

19. Facile synthesis of Bi 3 O(OH)(AsO 4 ) 2 and simultaneous photocatalytic oxidation and adsorption of Sb(III) from wastewater.

Author

Xiong Q, Ma X, Zhao L, Lv D, Xie L, Jiang L, He J, Zhu H, and Wang J

Subjects

Adsorption, Catalysis, Photochemical Processes, Waste Disposal, Fluid methods, Antimony chemistry, Oxidation-Reduction, Bismuth chemistry, Wastewater chemistry, Water Pollutants, Chemical chemistry

Abstract

Antimony (Sb) decontamination in water is necessary owing to the worsening pollution which seriously threatens human life safety. Designing bismuth-based photocatalysts with hydroxyls have attracted growing interest because of the broad bandgap and enhanced separation efficiency of photogenerated electron/hole pairs. Until now, the available photocatalysis information regarding bismuth-based photocatalysts with hydroxyls has remained scarce and the contemporary report has been largely limited to Bi 3 O(OH)(PO 4 ) 2 (BOHP). Herein, Bi 3 O(OH)(AsO 4 ) 2 (BOHAs), a novel ultraviolet photocatalyst, was fabricated via the co-precipitation method for the first time, and developed to simultaneous photocatalytic oxidation and adsorption of Sb(III). The rate constant of Sb(III) removal by the BOHAs was 32.4, 3.0, and 4.3 times higher than those of BiAsO 4 , BOHP, and TiO 2 , respectively, indicating that the introduction of hydroxyls could increase the removal of Sb(III). Additionally, the crucial operational parameters affecting the adsorption performance (catalyst dosage, concentration, pH, and common anions) were investigated. The BOHAs maintained 85% antimony decontamination of the initial yield after five successive cycles of photocatalysis. The Sb(III) removal involved photocatalytic oxidation of adsorbed Sb(III) and subsequent adsorption of the yielded Sb(V). With the acquired knowledge, we successfully applied the photocatalyst for antimony removal from industrial wastewater. In addition, BOHAs could also be powerful photocatalysts in the photodegradation of organic pollutants studies of which are ongoing. It reveals an effective strategy for synthesizing bismuth-based photocatalysts with hydroxyls and enhancing pollutants' decontamination., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

20. Heat of formation of trisodium orthophosphate, trisodium orthoarsenate, the oxides of antimony, bismuth trioxide; and fourth paper on the heat of combination of acidic oxides with sodium oxide

Author

W. G. Mixter

Subjects

chemistry.chemical_compound, Bismuth trioxide, Materials science, Antimony, chemistry, Sodium oxide, Inorganic chemistry, General Earth and Planetary Sciences, chemistry.chemical_element, Standard enthalpy of formation

Published

1909

21. A Mechanistic Study on Reactions of Group 13 Diyls LM with Cp*SbX2: From Stibanyl Radicals to Antimony Hydrides

Author

Christoph Wölper, Stephan Schulz, George E. Cutsail, Gebhard Haberhauer, and Christoph Helling

Subjects

Steric effects, Reaction mechanism, Full Paper, Chemistry, Hydride, antimony, Organic Chemistry, hydrides, General Chemistry, Reaction intermediate, Radicals, Full Papers, Hydrogen atom abstraction, Medicinal chemistry, Oxidative addition, Catalysis, Homolysis, Main group element, reaction mechanism, main group elements

Abstract

Oxidative addition of Cp*SbX2 (X=Cl, Br, I; Cp*=C5Me5) to group 13 diyls LM (M=Al, Ga, In; L=HC[C(Me)N (Dip)]2, Dip=2,6‐iPr2C6H3) yields elemental antimony (M=Al) or the corresponding stibanylgallanes [L(X)Ga]Sb(X)Cp* (X=Br 1, I 2) and ‐indanes [L(X)In]Sb(X)Cp* (X=Cl 5, Br 6, I 7). 1 and 2 react with a second equivalent of LGa to eliminate decamethyl‐1,1’‐dihydrofulvalene (Cp*2) and form stibanyl radicals [L(X)Ga]2Sb. (X=Br 3, I 4), whereas analogous reactions of 5 and 6 with LIn selectively yield stibanes [L(X)In]2SbH (X=Cl 8, Br 9) by elimination of 1,2,3,4‐tetramethylfulvene. The reactions are proposed to proceed via formation of [L(X)M]2SbCp* as reaction intermediate, which is supported by the isolation of [L(Cl)Ga]2SbCp (11, Cp=C5H5). The reaction mechanism was further studied by computational calculations using two different models. The energy values for the Ga‐ and the In‐substituted model systems showing methyl groups instead of the very bulky Dip units are very similar, and in both cases the same products are expected. Homolytic Sb−C bond cleavage yields van der Waals complexes from the as‐formed radicals ([L(Cl)M]2Sb. and Cp*.), which can be stabilized by hydrogen atom abstraction to give the corresponding hydrides, whereas the direct formation of Sb hydrides starting from [L(Cl)M]2SbCp* via concerted β‐H elimination is unlikely. The consideration of the bulky Dip units reveals that the amount of the steric overload in the intermediate I determines the product formation (radical vs. hydride)., It's radical: Reactions of Cp*SbX2 with LM (M=Ga, In) either selectively yielded Sb‐centered radicals [L(X)Ga]2Sb. or Sb hydrides [L(X)In]2SbH. The unexpected formation of Sb hydrides is the result of different steric congestion from the [L(X)M] ligands as was proven by computational calculations.

Published

2020

22. Comparative study of chemical process and biotechnological process for the removal of bismuth from mining concentrates

Author

H. Medrano-Roldán, K.I. Vargas-Rubio, and Damián Reyes-Jáquez

Subjects

chemistry.chemical_compound, Cadmium, chemistry, Antimony, General Chemical Engineering, Bioleaching, Extraction (chemistry), chemistry.chemical_element, Arsenic trioxide, Pulp and paper industry, Trioxide, Arsenic, Bismuth

Abstract

In 2018, approximately 17.7 billion metric tons of minerals were produced worldwide, which represent a great importance in the industrial sector. However, most of the minerals are bound with metallic elements, which lower the price of the metals of interest. Secondary materials in valuable metal extraction processes can cause various problems in the mining industry, both economic and environmental. This research aimed evaluate two treatments for the reduction of the bismuth concentration in gold and silver mineral concentrates: Bioleaching and co- precipitation with trioxide arsenic treatment, in the first, native microorganisms of the mineral to be treated were used to reduce the concentration of bismuth; in the second, arsenic trioxide was added in order to form a precipitate that contained bismuth.. The results showed that the chemical co-precipitation treatment with arsenic trioxide can decrease the Bi concentration to a greater extent compared to the bioleaching treatment, up to 16% of the initial concentration, in addition to reducing the concentration of other undesirable elements in metals such as antimony and cadmium by 32 and 11% respectively. From this research work, a collaboration of two techniques can be proposed for a higher reduction of concentration and with greater efficiency.

Published

2021

23. Geogenic and anthropogenic interactions at a former Sb mine: environmental impacts of As and Sb

Author

Sapar Dossanov, Duncan Cowper, Graeme I. Paton, and Lenka Mbadugha

Subjects

Antimony, Pollution, Environmental Engineering, media_common.quotation_subject, chemistry.chemical_element, Fresh Water, Environment, Mining, Mine site, Arsenic, Soil, Contamination, Geochemistry and Petrology, Water Quality, Soil Pollutants, Environmental Chemistry, Risk assessment, General Environmental Science, Water Science and Technology, media_common, Original Paper, Abandoned mine, General Medicine, Soil contamination, Scotland, chemistry, Environmental chemistry, Soil water, Environmental science, Surface water, Water Pollutants, Chemical, Environmental Monitoring

Abstract

Mining activities are acknowledged to introduce contaminants into localised environments and cause wider spread diffuse pollution. The concentration, distribution and fate of arsenic (As) and antimony (Sb) were studied at the former metalliferous Louisa Mine at Glendinning, Scotland. Soils and surface water were sampled and subsequently analysed to map the distribution of contamination and identify pollution sources. The maximum concentrations of As and Sb of 15,490 and 1504.2 mg kg−1, respectively, were determined in soils associated with the ore processing area and spoil heaps. The fractions of dissolved As and Sb in soils were

Published

2020

24. Factors driving antimony accumulation in soil-pakchoi and wheat agroecosystems: Insights and predictive models.

Author

Wu T, Zhang N, Liu C, Ding C, Zhang P, Hu S, Huang Y, Ge Z, Cui P, and Wang Y

Subjects

Agriculture, Crops, Agricultural metabolism, Environmental Monitoring methods, Ecosystem, Antimony analysis, Antimony metabolism, Triticum metabolism, Soil Pollutants metabolism, Soil Pollutants analysis, Soil chemistry

Abstract

The accumulation of antimony (Sb) in plants and its potential effects on human health are of increasing concern. Nevertheless, only a few countries or regions have established soil Sb thresholds for agricultural purposes, and soil properties have not been taken into account. This study investigated the accumulation of Sb in the edible parts of pakchoi and wheat grain by adding exogenous Sb to 21 soils with varying properties. The results revealed a positive correlation between bioavailable Sb (Sb ava , extracted by 0.1 M K 2 HPO 4 ) in soil and Sb in the edible parts of pakchoi (R 2  = 0.77, p < 0.05) and wheat grain (R 2  = 0.54, p < 0.05). Both machine learning and traditional multiple regression analysis indicated Sb ava was the most critical feature and the main soil properties that contributed to Sb uptake by pakchoi and wheat were CaCO 3 and clay, respectively. The advisory food limits for Sb in pakchoi and wheat were estimated based on health risk assessment, and used to derive soil thresholds for safe pakchoi and wheat production based on Sb tot and Sb ava , respectively. These findings hold potential for predicting Sb uptake by crops with different soil properties and informing safe production management strategies., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

25. Incorporation of Shewanella oneidensis MR-1 and goethite stimulates anaerobic Sb(III) oxidation by the generation of labile Fe(III) intermediate.

Author

Sheng H, Liu W, Wang Y, Ye L, and Jing C

Subjects

Anaerobiosis, Biodegradation, Environmental, Iron metabolism, Shewanella metabolism, Oxidation-Reduction, Antimony metabolism, Iron Compounds metabolism, Iron Compounds chemistry, Minerals metabolism, Minerals chemistry, Ferric Compounds metabolism

Abstract

Dissimilatory iron-reducing bacteria (DIRB) affect the geochemical cycling of redox-sensitive pollutants in anaerobic environments by controlling the transformation of Fe morphology. The anaerobic oxidation of antimonite (Sb(III)) driven by DIRB and Fe(III) oxyhydroxides interactions has been previously reported. However, the oxidative species and mechanisms involved remain unclear. In this study, both biotic phenomenon and abiotic verification experiments were conducted to explore the formed oxidative intermediates and related processes that lead to anaerobic Sb(III) oxidation accompanied during dissimilatory iron reduction. Sb(V) up to 2.59 μmol L -1 combined with total Fe(II) increased to 188.79 μmol L -1 when both Shewanella oneidensis MR-1 and goethite were present. In contrast, no Sb(III) oxidation or Fe(III) reduction occurred in the presence of MR-1 or goethite alone. Negative open circuit potential (OCP) shifts further demonstrated the generation of interfacial electron transfer (ET) between biogenic Fe(II) and goethite. Based on spectrophotometry, electron spin resonance (ESR) test and quenching experiments, the active ET production labile Fe(III) was confirmed to oxidize 94.12% of the Sb(III), while the contribution of other radicals was elucidated. Accordingly, we proposed that labile Fe(III) was the main oxidative species during anaerobic Sb(III) oxidation in the presence of DIRB and that the toxicity of antimony (Sb) in the environment was reduced. Considering the prevalence of DIRB and Fe(III) oxyhydroxides in natural environments, our findings provide a new perspective on the transformation of redox sensitive substances and build an eco-friendly bioremediation strategy for treating toxic metalloid pollution., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

26. Insights into the biogeochemical transformation, environmental impacts and biochar-based soil decontamination of antimony.

Author

Safeer R, Liu G, Yousaf B, Ashraf A, Haider MIS, Cheema AI, Ijaz S, Rashid A, Sikandar A, and Pikoń K

Subjects

Decontamination methods, Soil chemistry, Antimony analysis, Antimony chemistry, Charcoal chemistry, Soil Pollutants analysis, Soil Pollutants chemistry, Environmental Restoration and Remediation methods

Abstract

Every year, a significant amount of antimony (Sb) enters the environment from natural and anthropogenic sources like mining, smelting, industrial operations, ore processing, vehicle emissions, shooting activities, and coal power plants. Humans, plants, animals, and aquatic life are heavily exposed to hazardous Sb or antimonide by either direct consumption or indirect exposure to Sb in the environment. This review summarizes the current knowledge about Sb global occurrence, its fate, distribution, speciation, associated health hazards, and advanced biochar composites studies used for the remediation of soil contaminated with Sb to lessen Sb bioavailability and toxicity in soil. Anionic metal(loid) like Sb in the soil is significantly immobilized by pristine biochar and its composites, reducing their bioavailability. However, a comprehensive review of the impacts of biochar-based composites on soil Sb remediation is needed. Therefore, the current review focuses on (1) the fundamental aspects of Sb global occurrence, global soil Sb contamination, its transformation in soil, and associated health hazards, (2) the role of different biochar-based composites in the immobilization of Sb from soil to increase biochar applicability toward Sb decontamination. The review aids in developing advanced, efficient, and effective engineered biochar composites for Sb remediation by evaluating novel materials and techniques and through sustainable management of Sb-contaminated soil, ultimately reducing its environmental and health risks., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

27. Integrated physiological, intestinal microbiota, and metabolomic responses of adult zebrafish (Danio rerio) to subacute exposure to antimony at environmentally relevant concentrations.

Author

Liu C, Huang D, Sheng X, Zhu J, Dong S, Chen S, Wang Y, Tang A, Duan R, Yang Z, Bai J, and Zheng Y

Subjects

Animals, Oxidative Stress drug effects, Metabolome drug effects, Metabolomics, Zebrafish, Gastrointestinal Microbiome drug effects, Water Pollutants, Chemical toxicity, Antimony toxicity

Abstract

The available information regarding the impact of antimony (Sb), a novel environmental pollutant, on the intestinal microbiota and host health is limited. In this study, we conducted physiological characterizations to investigate the response of adult zebrafish to different environmental concentrations (0, 30, 300, and 3000 µg/L) of Sb over a period of 14 days. Biochemical and pathological changes demonstrated that Sb effectively compromised the integrity of the intestinal physical barrier and induced inflammatory responses as well as oxidative stress. Analysis of both intestinal microbial community and metabolome revealed that exposure to 0 and 30 µg/L of Sb resulted in similar microbiota structures; however, exposure to 300 µg/L altered microbial communities' composition (e.g., a decline in genus Cetobacterium and an increase in Vibrio). Furthermore, exposure to 300 µg/L significantly decreased levels of bile acids and glycerophospholipids while triggering intestinal inflammation but activating self-protective mechanisms such as antibiotic presence. Notably, even exposure to 30 µg/L of Sb can trigger dysbiosis of intestinal microbiota and metabolites, potentially impacting fish health through the "microbiota-intestine-brain axis" and contributing to disease initiation. This study provides valuable insights into toxicity-related information concerning environmental impacts of Sb on aquatic organisms with significant implications for developing management strategies., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

28. Tracing toxic path of antimony: From bioaccumulation to DNA hypomethylation in zebrafish (Danio rerio).

Author

Zhang J, Yang A, Cui W, Zhang J, Niu A, Hu X, and Li Q

Subjects

Animals, Biomarkers metabolism, Female, Toxicokinetics, Molecular Dynamics Simulation, Liver drug effects, Liver metabolism, Zebrafish, Antimony toxicity, DNA Methylation drug effects, Water Pollutants, Chemical toxicity, Bioaccumulation

Abstract

The increasing concentration of Antimony (Sb) in ecological environments has raised serious concerns about its potential biotoxicological impact. This study investigated the toxicokinetics, Global DNA Methylation (GDM), biomarker expression, and Integrated Biological Response (IBR) of Sb at different concentrations in zebrafish. The toxic mechanism of Sb exposure was simulated using molecular dynamics (MD). The results showed that significant differences effect existed (BCF k : liver > ovary > gut > brain) and uptake saturation phenomenon of Sb among zebrafish tissues. Over a 54-day exposure period, the liver emerged as the main target site for Sb-induced GDM, and the restoration was slower than in other tissues during the 54-day recovery period. Moreover, the concentration of Sb had a significant impact on the normally expression of biomarkers, with GSTM1 inhibited and MTF2, MT1, TET3, and p53 showing varying degrees of activation at different Sb concentrations. This could be attributed to Sb 3+ potentially occupying the active site or tightly binding to the deep cavity of these genes. The IBR and MD results highlighted DNMT1 as the most sensitive biomarker among those assessed. This heightened sensitivity can be attributed to the stable binding of Sb 3+ to DNMT1, resulting in alterations in the conformation of DNMT1's catalytic domain and inhibition of its activity. Consequently, this disruption leads to damage to the integrity of GDM. The study suggests that DNA methylation could serve as a valuable biomarker for assessing the ecotoxicological impact of Sb exposure. It contributes to a better understanding of the toxicity mechanisms in aquatic environments caused potential pollutants., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

29. Efficacy and mechanism of enhanced Sb(V) removal from textile wastewater using ferric flocs in aerobic biological treatment.

Author

Zhang S, Baig SA, and Xu X

Subjects

Iron chemistry, Adsorption, Textile Industry, Ferric Compounds chemistry, Bioreactors microbiology, Textiles, Biodegradation, Environmental, Aerobiosis, Wastewater chemistry, Waste Disposal, Fluid methods, Water Pollutants, Chemical analysis, Water Pollutants, Chemical metabolism, Sewage chemistry, Sewage microbiology, Antimony chemistry

Abstract

Antimony contamination from textile industries has been a global environmental concern and the existing treatment technologies could not reduce Sb(V) to meet the discharge standards. To overcome this shortcoming, ferric flocs were introduced to expedite the biological process for enhanced Sb(V) removal in wastewater treatment plant (WWTP). For this purpose, a series of laboratorial-scale sequential batch reactor activated sludge processes (SBRs) were applied for Sb(V) removal with varied reactor conditions and the transformation of Fe and Sb in SBR system was investigated. Results showed a significant improvement in Sb(V) removal and the 20 mg L -1 d -1 iron ions dosage and iron loss rate was found to be only 15.2%. The influent Sb(V) concentration ranging 153-612 μg L -1 was reduced to below 50 μg L -1 , and the maximum Sb(V) removal rate of the enhanced system reached about 94.3%. Furthermore, it exhibited high stability of Sb(V) removal in the face of antimonate load, Fe strike and matrix change of wastewater. Sludge total Sb determination and capacity calculation revealed decreasing in Sb adsorption capacity and desorption without fresh Fe dosage. While sludge morphology analysis demonstrated the aging and crystallization of iron hydroxides. These results verify the distinct effects of fresh iron addition and iron aging on Sb(V) removal. High-throughput gene pyrosequencing results showed that the iron addition changed microbial mechanisms and effect Fe oxidized bacterial quantity, indicating Sb(V) immobilization achieved by microbial synergistic iron oxidation. The present study successfully established a simple and efficient method for Sb(V) removal during biological treatment, and the modification of biological process by iron supplement could provide insights for real textile wastewater treatment., Competing Interests: Declaration of competing interest The authors declare no competing financial interests or personal relationships appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

30. Influence of dissolved organic matter with different molecular weight from chicken manure on ferrihydrite adsorption and re-release of antimony(V).

Author

Qiu X, Chen M, Wu P, Li Y, Sun L, Shang Z, Wang T, Dang Z, and Zhu N

Subjects

Adsorption, Animals, Ferric Compounds chemistry, Molecular Weight, Soil chemistry, Soil Pollutants chemistry, Fertilizers, Manure, Antimony chemistry, Chickens

Abstract

Applying organic fertilizer is the main way to enhance soil fertility through the interfacial reaction between mineral and dissolved organic matter (DOM). However, the interfacial reaction between minerals and DOM may influence antimony(V) (Sb(V)) mobility in agricultural soils around antimony mines. In our study the ferrihydrite (Fh) was chosen as a representative mineral, to reveal the effect of its interaction with chicken manure organic fertilizer (CM-DOM) with Fh on Sb(V) migration. In this study, we investigated different organic matter molecular weights and C/Fe molar ratios. Our findings indicated that the addition of CM-DOM decreased the adsorption of Sb(V) by Fh and promoted the re-release of Sb(V) adsorbed on Fh. This effect was enhanced by increasing the C/Fe molar ratio. Fh mainly affects its interaction with Sb(V) through electrostatic gravitational interaction and ligand exchange, but the presence of CM-DOM weakens the electrostatic interaction between Fh and Sb(V) as well as competes with Sb(V) for the hydroxyl reactive site on Fh surface. In addition, the smaller molecular weight fraction (<10 kDa) of CM-DOM has higher aromaticity and hydrophobicity, which potentially leads to more intense competition with Sb(V) for the reaction sites on Fh. Therefore, the application of organic fertilizer may promote Sb(V) migration, posing significant risks to soil ecosystems and human health, which should be a concern in field soil cultivation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

31. Synthesis of Tetrahedranes Containing the Unique Bridging Hetero‐Dipnictogen Ligand EE′ (E ≠ E′=P, As, Sb, Bi)

Author

Manfred Scheer, Luis Dütsch, Christoph Riesinger, and Gábor Balázs

Subjects

antimony, ddc:540, chemistry.chemical_element, Hot Paper, 010402 general chemistry, 01 natural sciences, Catalysis, chemistry.chemical_compound, molybdenum, Transition metal, Antimony, pnictogens, bismuth, antimony, molybdenum, mixed main group elements, bismuth, pnictogens, Pnictogen, Full Paper, 010405 organic chemistry, Ligand, Organic Chemistry, General Chemistry, Full Papers, 0104 chemical sciences, mixed main group elements, Crystallography, chemistry, Covalent bond, Yield (chemistry), 540 Chemie, Tetrahedrane, Single crystal

Abstract

In order to improve and extend the rare class of tetrahedral mixed main group transition metal compounds, a new synthetic route for the complexes [{CpMo(CO)2}2(μ,η2:η2‐PE)] (E=As (1), Sb (2)) is described leading to higher yields and a decrease in reaction steps. Via this route, also the so far unknown heavier analogues containing AsSb (3 a), AsBi (4) and SbBi (5) ligands, respectively, are accessible. Single crystal X‐ray diffraction experiments and DFT calculations reveal that they represent very rare examples of compounds comprising covalent bonds between two different heavy pnictogen atoms, which show multiple bond character and are stabilised without any organic substituents. A simple one‐pot reaction of [CpMo(CO)2]2 with ME(SiMe3)2 (M=Li, K; E=P, As, Sb, Bi) and the subsequent addition of PCl3, AsCl3, SbCl3 or BiCl3, respectively, give the complexes 1–5. This synthesis is also transferable to the already known homo‐dipnictogen complexes [{CpMo(CO)2}2(μ,η2:η2‐E2)] (E=P, As, Sb, Bi) resulting in higher yields comparable to those in the literature reported procedures and allows the introduction of the bulkier and better soluble Cp′ (Cp′=tert butylcyclopentadienyl) ligand., New synthetic pathway towards organometallic tetrahedrane derivatives [{CpMo(CO)2}2(μ,η2:η2‐EE′)] (E≠E′=P, As, Sb, Bi) involving a hetero‐dipnictogen ligand is reported, leading to dramatic yield enhancements for already known compounds, the reduction of reaction steps and access to so far unknown AsSb, AsBi and SbBi ligand complexes, which feature unseen covalent bonds between two different heavy group 15 elements without organic substituents.

Published

2021

32. The Newcastle Papers in Industrial Medicine over the last 21 years

Author

R. C. Browne

Subjects

Adult, Antimony, Male, medicine.medical_specialty, Occupational Medicine, genetic structures, Adolescent, Statistics as Topic, Poison control, Suicide prevention, Occupational safety and health, Nystagmus, Pathologic, Occupational medicine, Berylliosis, Occupational hygiene, medicine, Animals, Decalcification, Pathologic, Humans, Education, Graduate, Aged, Minerals, business.industry, Public health, Research, Public Health, Environmental and Occupational Health, Human factors and ergonomics, Articles, Middle Aged, Decompression Sickness, Medical statistics, Coal Mining, Surgery, Lead Poisoning, Occupational Diseases, Radiography, England, Tooth Diseases, Family medicine, Cats, Female, Pneumoconiosis, business, Noise

Abstract

The Chair of Industrial Health in Newcastle upon Tyne was first filled in March, 1946. For about the first 12 years diseases of coalminers posed the main clinical and research problems. They stimulated surveys of pneumoconiosis in the Durham and Northumberland coalfields and led to studies of ϰ-ray viewing techniques and of the relationship of radiological appearance to symptoms in dust disease of the chest. A section of medical statistics, now headed by a professor, was one of the earliest elements of the department to be inaugurated, and this was followed by a section of pulmonary physiology. The emphasis on industrial pulmonary disease, on which 14 papers have been published, has gradually widened and become transferred from coal to beryllium, asbestos, and antimony. Coalminers with nystagmus were shown to be socially similar to miners without the disease but psychologically less stable. They also suffered from a breakdown of their binocular vision. A darkness-induced nystagmus was experimentally produced in kittens, with increasing difficulty as they became older. Decompression sickness has become an important interest. In the build-up of the department demands for occupational hygiene soon led to the formation of a section which started work on the decalcification of teeth by organic acids in a fruit salt factory. Lead poisoning in shipbreakers and smelters, and vanadium poisoning in fitters and gasmakers were studied jointly with clinicians. The thermal decomposition of protective coatings and welding rods has also attracted research, as also have the noise levels in a glassblowing school and in several power stations. All medical, engineering, and public health undergraduates are taught by the department, and also the honours chemists. All medical undergraduates and honours engineers are examined in industrial health. The departmental budget (including the field service) is about £54,000, and the department inhabits 12,660 sq. ft. of space.

Published

1968

33. New Analytical Methodology for Sb(III) Traces Quantification as Emergent Contaminant in Drinks Packaged PET Samples by Solid Surface Fluorescence

Author

Valentina Feresin, Liliana Patricia Fernandez, Mariano Acosta, Vanesa Muñoz, and María Carolina Talio

Subjects

Detection limit, ANTIMONY TRACES, Analyte, Materials science, Chromatography, Filter paper, EMERGING CONTAMINANTS, Ciencias Químicas, chemistry.chemical_element, ALIZARINE, Contamination, WATERS AND BEVERAGES, SOLID SURFACE FLUORESCENCE, Matrix (chemical analysis), purl.org/becyt/ford/1 [https], Psychiatry and Mental health, Antimony, chemistry, Linear range, Reagent, purl.org/becyt/ford/1.4 [https], Química Analítica, CIENCIAS NATURALES Y EXACTAS

Abstract

Emerging contaminants constitute a set of substances that are released into the environment for which regulations are currently not established for their environmental monitoring, being antimony one of them. A new methodology for Sb(III) traces monitoring by solid surface fluorescence is proposed. The metal was complexed with alizarine (Az) as fluorosphore reagent in alcaline medium in presence of the bile salt sodium cholate. To isolate the analyte of matrix constituents, a preconcentration/separation strategy on filter paper was introduced prior to determination step. The solid surface fluorescence was measured λem = 450 nm and λexc = 363 nm using a solid sampler holder. Under optimal conditions, the limits of detection and quantification of proposed methodology were 0.08 and 0.24 μg·L-1, respectively, showing a linear range from 0.24 to 304.4 μg·L-1 with good sensitivity and adequate selectivity. It was applied to the Sb(III) traces determination present in drinking water and beverages samples packaged in polyethylene terephthalate (PET) bottles widely consumed in Argentina. The combination of a preconcentration step on common filter paper and the inherent sensitivity of photoluminescent methods have permitted to achieve sensitivity similar to atomic spectroscopies using a lower price instrument typical in control laboratories. Precision and accuracy were tested with excellent agreement. Results were truenessed by ETAAS with satisfactory concordance. Fil: Talio, María Carolina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Química de San Luis. Universidad Nacional de San Luis. Facultad de Química, Bioquímica y Farmacia. Instituto de Química de San Luis; Argentina Fil: Feresin, Valentina. Universidad Nacional de San Luis; Argentina Fil: Muñoz, Vanesa Alejandra. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Química de San Luis. Universidad Nacional de San Luis. Facultad de Química, Bioquímica y Farmacia. Instituto de Química de San Luis; Argentina Fil: Acosta, Mariano. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Química de San Luis. Universidad Nacional de San Luis. Facultad de Química, Bioquímica y Farmacia. Instituto de Química de San Luis; Argentina Fil: Fernandez, Liliana Patricia. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Química de San Luis. Universidad Nacional de San Luis. Facultad de Química, Bioquímica y Farmacia. Instituto de Química de San Luis; Argentina

Published

2019

34. Structural Expansion of Chalcogenido Tetrelates in Ionic Liquids by Incorporation of Sulfido Antimonate Units

Author

Chloé Krampe, Stefanie Dehnen, Julian Klärner, and Bertram Peters

Subjects

Technology, Stannate, antimony, Salt (chemistry), 010402 general chemistry, Metathesis, 01 natural sciences, Catalysis, chemistry.chemical_compound, Main Group Elements | Hot Paper, tin, sulfido (semi)metalates, Germanate, chemistry.chemical_classification, Full Paper, 010405 organic chemistry, Organic Chemistry, General Chemistry, Full Papers, 0104 chemical sciences, X-ray diffraction, Crystallography, germanium, chemistry, Ionic liquid, X-ray crystallography, Ternary operation, ddc:600, Antimonate

Abstract

Multinary chalcogenido (semi)metalate salts exhibit finely tunable optical properties based on the combination of metal and chalcogenide ions in their polyanionic substructure. Here, we present the structural expansion of chalcogenido germanate(IV) or stannate(IV) architectures with SbIII, which clearly affects the vibrational and optical absorption properties of the solid compounds. For the synthesis of the title compounds, [K4(H2O)4][Ge4S10] or [K4(H2O)4][SnS4] were reacted with SbCl3 under ionothermal conditions in imidazolium‐based ionic liquids. Salt metathesis at relatively low temperatures (120 °C or 150 °C) enabled the incorporation of (formally) Sb3+ ions into the anionic substructure of the precursors, and their modification to form (Cat)16[Ge2Sb2S7]6[GeS4] (1) and (Cat)6[Sn10O4S20][Sb3S4]2 (2 a and 2 b), wherein Cat=(C4C1C1Im)+ (1 and 2 a) or (C4C1C2Im)+ (2 b). In 1, germanium and antimony atoms are combined to form a rare noradamantane‐type ternary molecular anion, six of which surround an {GeS4} unit in a highly symmetric secondary structure, and finally crystallize in a diamond‐like superstructure. In 2, supertetrahedral oxo‐sulfido stannate clusters are generated, as known from the ionothermal treatment of the stannate precursor alone, yet, linked here into unprecedented one‐dimensional strands with {Sb3S4} units as linkers. We discuss the single‐crystal structures of these uncommon salts of ternary and quaternary chalcogenido (semi)metalate anions, as well as their Raman and UV‐visible spectra., Three sulfido (semi)metalates, (Cat)16[Ge2Sb2S7]6[GeS4] (1) and (Cat)6[Sn10O4S20][Sb3S4]2 (2 a and 2 b), Cat=(C4C1C1Im)+ (1 and 2 a) or (C4C1C2Im)+ (2 b), were obtained by salt metathesis from [K4(H2O)4][Ge4S10] or [K4(H2O)4][SnS4] and SbCl3 in imidazolium‐based ionic liquids at moderate temperatures (120 °C). The incorporation of Sb3+ ions into the (modified) anionic substructures is reflected in the Raman and UV‐visible spectra of the products.

Published

2020

35. Phase Evolution and Recovery Rate of Sb in Lead–Silver Slag Treated via Melting–Fuming Method.

Author

Shen, Yingying, Liu, Tianyue, Zhou, Shengming, Cao, Huan, Ma, Weixing, Lu, Sujun, and Du, Xueyan

Subjects

SLAG, METAL wastes, ANTIMONY, POLLUTION

Abstract

Large amounts of lead–silver slag and a low recycling rate cause environmental pollution and the waste of metal resources. In this paper, a melting–fuming method is used to treat lead–silver slag. Thermodynamic analysis, the melting–fuming procedure, and response surface optimization were performed to investigate the phase evolution of the antimony element. The influence of reaction temperature, carbon ratio, and holding time on antimony recovery is also investigated. The results show that Sb2O3 and Sb2O4 are the main phases containing Sb in the dust. With the increase of the reaction temperature and the holding time, the recovery rate of antimony gradually increases and reaches 80.19% and 81.97% at 1250°C and 120 min, respectively; The recovery of antimony first increases and then decreases with the increase of the carbon ratio and reaches the highest value at 16.30%; The recovery rate of antimony reaches 82.54% in the optimal conditions of a reaction temperature of 1290°C, a carbon ratio of 17.60%, and a holding time of 125 min. This paper provides theoretical guidance for the recovery and reuse of antimony from lead–silver slag. [ABSTRACT FROM AUTHOR]

Published

2023

36. Effective stabilization of antimony in Waste-to-Energy fly ash with recycled laboratory iron–rich residuals

Author

Zijuan Lv, Meili Zhan, Bo Wang, Jianwei Zhao, Huawei Wang, Yiu Fai Tsang, Ya-nan Wang, and Yingjie Sun

Subjects

Toxicity characteristic leaching procedure, Renewable Energy, Sustainability and the Environment, Chemistry, 020209 energy, Strategy and Management, Limit value, 05 social sciences, chemistry.chemical_element, 02 engineering and technology, Pulp and paper industry, Industrial and Manufacturing Engineering, Metal, Waste-to-energy, Antimony, visual_art, Fly ash, 050501 criminology, 0202 electrical engineering, electronic engineering, information engineering, visual_art.visual_art_medium, Leaching (metallurgy), Dissolution, 0505 law, General Environmental Science

Abstract

Recycling of iron-bearing waste for stabilizing antimony (Sb) in Waste-to-Energy (WtE) fly ash is a low-cost and sustainable approach. In this work, two laboratory iron–rich residuals (LIR–1 and LIR–2) were collected and their effectiveness for stabilizing Sb in WtE fly ash were evaluated by toxicity characteristic leaching procedure (TCLP) and continuous acid leaching tests. The results of TCLP tests showed that addition of 1.75% LIR–1 and LIR–2 decreased the Sb leaching concentration from 2.04 ± 0.064 mg/L to 0.17 ± 0.004 and 0.15 ± 0.035 mg/L, respectively, which were below the limit value in the standard of 40 CRF 268.40 (1.15 mg/L). Continuous acid leaching tests indicated that the leaching of Sb was pH-dependent, and the dissolution of metal oxides (Fe, Mn and Al) played an important role in controlling the release of Sb from raw WtE fly ash. After LIR treatment, the leaching of Sb was significantly decreased than that from raw fly ash, which was mainly ascribed to the formation of tripuhyite precipitation. These results indicated that LIR could be recycled as stabilizers to immobilize Sb in WtE fly ash, which provided an alternative way for realizing of cleaner production of LIR.

Published

2019

37. Antimony precipitation and removal by antimony hyper resistant strain Achromobacter sp. 25-M.

Author

Loni PC, Wang W, Qiu X, Man B, Wu M, Qiu D, and Wang H

Subjects

Spectroscopy, Fourier Transform Infrared, Oxidation-Reduction, X-Ray Diffraction, Adsorption, Antimony chemistry, Minerals

Abstract

Microbes have been confirmed to play key role in biogeochemistry of antimony. However, the impact of indigenous bacteria (from active mines) on the behavior of dissolved antimony remained poorly understood. In current study, the hyper antimony-resistant strain, Achromobacter sp. 25-M, isolated from the world largest antimony deposit, Xikuangshan antimony deposit, was evaluated for its role in dissolved Sb(V) and Sb(III) precipitation and removal. Despite of the high resistance to Sb(III) (up to 50 mM), the facultative alkaliphile, 25-M was not capable of Sb(III) oxidation. Meanwhile 25-M can produce high amount of exopolymeric substance (EPS) with the presence of Sb, which prompted us to investigate the potential role of EPS in the precipitation and removal of Sb. To this end, 2 mM of Sb(III) and Sb(V) were added into the experimental systems with and without 25-M to discern the interaction mechanism between microbe and antimony. After 96 hrs' incubation, 88% [1.73 mM (210 mg/L)] of dissolved Sb(V) and 80% [1.57 mM (190 mg/L)] of dissolved Sb(III) were removed. X-ray diffraction and energy dispersive spectroscopy analysis confirmed the formation of valentinite (Sb 2 O 3 ) in Sb(III) amended system and a solitary Sb(V) mineral mopungite [NaSb(OH) 6 ] in Sb(V) amended group with microbes. Conversely, no precipitate was detected in abiotic systems. Morphologically valentinite was bowtie and mopungite was pseudo-cubic as indicated by scanning electronic microscopy. EPS was subjected to fourier transform infrared (FT-IR) analysis. FT-IR analysis suggested that -OH and -COO groups were responsible for the complexation and ligand exchange with Sb(III) and Sb(V), respectively. Additionally, the C-H group and N-H group could be involved in π-π interaction and chelation with Sb species. All these interactions between Sb and functional groups in EPS may subsequently favore the formation of valentinite and mopungite. Collectively, current results suggested that EPS play fundamental role in bioprecipitation of Sb, which offered a new strategy in Sb bioremediation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Inc.)

Published

2024

38. Tunable Near-Infrared Transparent Bands Based on Cascaded Fabry–Perot Cavities Containing Phase Change Materials.

Author

She, Yuchun, Zhong, Kaichan, Tu, Manni, Xiao, Shuyuan, Chen, Zhanxu, An, Yuehua, Liu, Dejun, and Wu, Feng

Subjects

MODE-coupling theory (Phase transformations), PHASE change materials, ANTIMONY, TRANSPARENT ceramics

Abstract

In this paper, we construct a near-infrared Fabry–Perot cavity composed of two sodium (Na) layers and an antimony trisulfide (Sb2S3) layer. By cascading two Fabry–Perot cavities, the transmittance peak splits into two transmittance peaks due to the coupling between two Fabry–Perot modes. We utilize a coupled oscillator model to describe the mode coupling and obtain a Rabi splitting of 60.0 meV. By cascading four Fabry–Perot cavities, the transmittance peak splits into four transmittance peaks, leading to a near-infrared transparent band. The near-infrared transparent band can be flexibly tuned by the crystalline fraction of the Sb2S3 layers. In addition, the effects of the layer thickness and incident angle on the near-infrared transparent band and the mode coupling are investigated. As the thickness of the Na layer increases, the coupling strength between the Fabry–Perot modes becomes weaker, leading to a narrower transparent band. As the thickness of the Sb2S3 layer increases, the round-trip propagating of the Sb2S3 layer increases, leading to the redshift of the transparent band. As the incident angle increases, the round-trip propagating of the Sb2S3 layer decreases, leading to the blueshift of the transparent band. This work not only provides a viable route to achieving tunable near-infrared transparent bands, but also possesses potential applications in high-performance display, filtering, and sensing. [ABSTRACT FROM AUTHOR]

Published

2024

39. Enhanced removal of antimony in dyeing wastewater by mixing Fe3O4 with manganese sand filter material

Author

Hongbo Liu, Ying Qiyan, Stefan Norra, Congyu Li, Eric Lichtfouse, University of Shanghai for Science and Technology, Karlsruhe Institute of Technology (KIT), Xi'an Jiaotong University (Xjtu), Centre européen de recherche et d'enseignement des géosciences de l'environnement (CEREGE), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Shanghai Science International Cooperation Project (STCSM)18230712300

Subjects

Materials science, Sand filter, chemistry.chemical_element, 02 engineering and technology, Manganese, 010501 environmental sciences, 01 natural sciences, law.invention, Adsorption, 020401 chemical engineering, Antimony, law, Environmental Chemistry, 0204 chemical engineering, Waste Management and Disposal, Filtration, 0105 earth and related environmental sciences, Water Science and Technology, filter, [SDE.IE]Environmental Sciences/Environmental Engineering, Ecological Modeling, Fe3O4, [CHIM.MATE]Chemical Sciences/Material chemistry, Pulp and paper industry, Pollution, 6. Clean water, Filter (aquarium), chemistry, Wastewater, Heavy metals, adsorption, Wastewater Treatment, Dyeing, MnO2

Abstract

International audience; Wastewaters from the printing and dyeing industries contain many contaminants in particular antimony (Sb) that end up in the environment. Both manganese sand filter and Fe3O4 have good removal effect on Sb, and are cheap and easy to obtain. We made a filter material by mechanically mixing the manganese sand filter material and ferro-ferric oxide (Fe 3 O 4). The Fe-Mn oxide filter material was analyzed by X-ray diffraction. We studied the filtration of real wastewater from a dyeing wastewa-ter resource recovery facility in Suzhou, China, containing Sb at high concentration of 410 μg/L, using dynamic tests in adsorption columns during 7 days. We tested the effects of filter material volume filling ratio, the empty bed contact time (EBCT), pH, and back washing on the removal of Sb. Results show that the addition of Fe3O4 enhanced the removal of Sb, reaching 85% of initial Sb. When the initial influent pH of the raw water is 3.0, the volume filling ratio of filter material is 60%, the EBCT is 20 min, and the developed dynamic Fe-Mn oxide filter has the best removal effect on Sb. Daily back washing of the filter keeps a Sb removal rate of about 80%.

Published

2020

40. Low concentrations of antimony impair adipogenesis and endoplasmic reticulum homeostasis during 3T3-L1 cells differentiation.

Author

Molonia MS, Muscarà C, Speciale A, Salamone FL, Costa G, Vento G, Saija A, and Cimino F

Subjects

Humans, Animals, Mice, 3T3-L1 Cells, Peroxisome Proliferator-Activated Receptors metabolism, Adipocytes, Cell Differentiation, Endoplasmic Reticulum metabolism, Homeostasis, PPAR gamma metabolism, Adipogenesis, Antimony toxicity, Antimony metabolism

Abstract

Antimony (Sb) is a metalloid widely present in plastics used for food contact packaging, toys and other household items. Since Sb can be released by these plastics and come into contact with humans, health concerns have been highlighted. The effect of Sb on human tissues is yet controversial, and biochemical mechanisms of toxicity are lacking. In the present study, the effect of very low nanomolar concentrations of Sb(III), able to mimicking chronic human exposure, was evaluated in 3T3-L1 murine cells during the differentiation process. Low nanomolar Sb exposure (from 0.05 to 5 nM) induced lipid accumulation and a marked increase in C/EBP-β and PPAR-γ levels, the master regulators of adipogenesis. The Sb-induced PPAR-γ was reverted by the estrogen receptor antagonist ICI 182,780. Additionally, Sb stimulated preadipocytes proliferation inducing G2/M phase of cell cycle and this effect was associated to reduced cell-cycle inhibitor p21 levels. In addition to these metabolic dysfunctions, Sb activated the proinflammatory NF-κB pathway and altered endoplasmic reticulum (ER) homeostasis inducing ROS increase, ER stress markers XBP-1s and pEIF2a and downstream genes, such as Grp78 and CHOP. This study, for the first time, supports obesogenic effects of low concentrations exposure of Sb during preadipocytes differentiation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

41. A review on sources of soil antimony pollution and recent progress on remediation of antimony polluted soils.

Author

Tang H, Hassan MU, Nawaz M, Yang W, Liu Y, and Yang B

Subjects

Humans, Soil, Biodegradation, Environmental, Mining, Antimony toxicity, Soil Pollutants analysis

Abstract

Antimony (Sb) is a serious toxic and non-essential metalloid for animals, humans, and plants. The rapid increase in anthropogenic inputs from mining and industrial activities, vehicle emissions, and shoot activity increased the Sb concentration in the environment, which has become a serious concern across the globe. Hence, remediation of Sb-contaminated soils needs serious attention to provide safe and healthy foods to humans. Different techniques, including biochar (BC), compost, manures, plant additives, phyto-hormones, nano-particles (NPs), organic acids (OA), silicon (Si), microbial remediation techniques, and phytoremediation are being used globally to remediate the Sb polluted soils. In the present review, we described sources of soil Sb pollution, the environmental impact of antimony pollution, the multi-faceted nature of antimony pollution, recent progress in remediation techniques, and recommendations for the remediation of soil Sb-pollution. We also discussed the success stories and potential of different practices to remediate Sb-polluted soils. In particular, we discussed the various mechanisms, including bio-sorption, bio-accumulation, complexation, and electrostatic attraction, that can reduce the toxicity of Sb by converting Sb-V into Sb-III. Additionally, we also identified the research gaps that need to be filled in future studies. Therefore, the current review will help to develop appropriate and innovative strategies to limit Sb bioavailability and toxicity and sustainably manage Sb polluted soils hence reducing the toxic effects of Sb on the environment and human health., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

42. Associations between urinary heavy metals and anxiety among adults in the National Health and Nutrition Examination Survey (NHANES), 2007-2012.

Author

Gui J, Ding R, Huang D, Wang L, Han Z, Yang X, Yang J, Luo H, and Jiang L

Subjects

Humans, Adult, Nutrition Surveys, Cadmium, Tungsten, Bayes Theorem, Anxiety epidemiology, Cobalt, Antimony, Uranium

Abstract

Background: Few studies have investigated the associations between heavy metals and anxiety. The purpose of this study was to examine the associations between single and combined exposure to heavy metals and anxiety., Methods: This study employed data from the National Health and Nutrition Examination Survey (NHANES) from 2007 to 2012. Anxiety was assessed by patients self-reporting the number of anxious days per month. First, we evaluated the associations between 10 heavy metals single exposure and anxiety by multivariable logistic regression. We then selected 5 heavy metals (cadmium, antimony, cobalt, tungsten, and uranium) for further analysis by elastic net regression. Subsequently, principal component analysis (PCA), weighted quantile regression (WQS), and Bayesian kernel machine regression (BKMR) were utilized to evaluate the associations between 5 heavy metals co-exposure and anxiety., Results: This study included 4512 participants, among whom 1206 participants were in an anxiety state. Urinary cadmium and antimony were separately related to an increased risk of anxiety (p for trend <0.01 and < 0.01, respectively). In PCA analysis, PC1 was associated with an increased risk of anxiety (p for trend <0.001). In WQS analysis, the positive WQS index was substantially linked with the risk of anxiety (OR (95%CI): 1.23 (1.04,1.39)). In BKMR analysis, the overall effects of co-exposure to heavy metals were positively connected with anxiety., Conclusion: Our study identified a positive correlation between individual exposure to cadmium and antimony and the risk of anxiety. Additionally, the co-exposure to cadmium, antimony, cobalt, tungsten, and uranium was associated with an increased risk of anxiety., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

43. Assessment of industrial by-products as amendments to stabilize antimony mine wastes.

Author

Álvarez-Ayuso E and Murciego A

Subjects

Hazardous Waste, Antimony, Ecosystem

Abstract

The spread of antimony from mine wastes to the environment represents a matter of great concern due to its adverse effects on impacted ecosystems. There is an urgent need for developing and adopting sustainable and inexpensive measures to deal with this type of wastes. In this study the Sb leaching behavior of mine waste rocks and mine tailings derived from the exploitation of Sb ore deposits was characterized using standard batch leaching tests (TCLP and EN-12457-4) and column leaching essays. Accordingly, these mine wastes were characterized as toxic (>0.6 mg Sb L -1 ) and not acceptable at hazardous waste landfills (>5 mg Sb kg -1 ), showing also an ongoing Sb release under prolonged leaching conditions. Two industrial by-products were evaluated as amendments to stabilize them, namely deferrisation sludge (DFS) and a by-product derived from the treatment of aluminum salt slags (BP-Al). Mine wastes were amended with different doses (0-25%) of DFS or BP-Al and the performance of these treatments was evaluated employing also batch and column leaching procedures. The effectiveness of DFS to immobilize Sb was much higher than that exhibited by BP-Al. Thus, treatments with 25% BP-Al showed Sb immobilization levels of approximately 33-53%, whereas treatments with 5 and 25% DFS already attained Sb immobilization levels up to approximately 80-90 and 90-99%, respectively. Mine tailings amended with 5% DFS and mine waste rocks amended with 25% DFS decreased their leachable Sb contents below the limit for non-hazardous waste landfill acceptance (<0.7 mg Sb kg -1 ). Likewise, these DFS treatments were able to revert their toxic characterization. Moreover, the 25% DFS treatment showed to be a long-lasting stabilizing system, efficient at least during a leaching period equivalent to 10-year rainfall with a great Sb leaching reduction (close to 98%). After this long-term leaching process, DFS-treated mine wastes kept their non-hazardous and non-toxic characterization. The amorphous Fe (oxyhydr)oxides composing DFS were responsible for the important Sb removal capacity showed by this by-product. Thus, when DFS was applied to mine wastes mobile Sb was importantly fixed as non-desorbable Sb, showing also a considerable Sb removal capacity in presence of strong competing anions such as phosphate. The application of DFS as amendment presents a great potential to be used as a sustainable long-term stabilizing system of Sb mine wastes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2023

44. Antimony deposition onto Au(111) and insertion of Mg

Author

Da Xing, Helmut Baltruschat, Lingxing Zan, and A. A. Abd-El-Latif

Subjects

Materials science, antimony, Analytical chemistry, STM, General Physics and Astronomy, 02 engineering and technology, Substrate (electronics), Electrolyte, lcsh:Chemical technology, 01 natural sciences, lcsh:Technology, Full Research Paper, law.invention, insertion, law, alloy, Monolayer, Nanotechnology, General Materials Science, lcsh:TP1-1185, Electrical and Electronic Engineering, Thin film, Au(111), lcsh:Science, Ionic radius, 010405 organic chemistry, lcsh:T, 021001 nanoscience & nanotechnology, lcsh:QC1-999, 0104 chemical sciences, Nanoscience, electrodeposition, lcsh:Q, Cyclic voltammetry, Scanning tunneling microscope, 0210 nano-technology, Deposition (chemistry), lcsh:Physics

Abstract

Magnesium based secondary batteries have been regarded as a viable alternative compared to the immensely popular Li-ion systems owing to its high volumetric capacity. One of the largest challenges is the selection of Mg anode material since the insertion/extraction processes are kinetically slow because the large ionic radius and high charge density of Mg2+ compared with Li+. We prepared very thin films of Sb by electrodeposition on an Au (111) substrate. Monolayer and multilayer deposition (up to 20 Monolayer) were characterized by cyclic voltammetry and STM (Scanning-Tunneling-Microscope). Monolayer deposition results in a characteristic row structure; the monolayer is commensurate in one dimension, but not in the other. The row structure is to some extent maintained after deposition of further layers. After dissolution of the multilayers of Sb the substrate is roughened on the atomic scale due to alloy formation, as demonstrated by CV and STM. Further multilayer deposition correspondingly leads to rough deposit with protrusion of up to 3 nm. The cyclic voltammogram for Mg insertion/de-insertion from MgCl2/AlCl3/Tetraglyme (MACC/TG) electrolyte into/from Sb modified electrode shows a positive shift (400 mV) of the onset potential of Mg deposition compared to that at bare Au electrode. From the charge of Mg deposition, we find that the ratio of Mg to Sb is 1:1; and this somewhat less than expected for the Mg3Sb2 alloy.

Published

2019

45. Joint Base Cape Cod small-arms ranges : lead and antimony batch-reaction study

Author

Samuel A. Beal, Jay L. Clausen, and A. Barker

Subjects

Small arms, chemistry.chemical_classification, Lead Metal, Antimony, chemistry, Base (chemistry), Cape, chemistry.chemical_element, Environmental science, Pulp and paper industry, Joint (geology), Batch reaction

Published

2019

46. Towards a high quality recycling of plastics from waste electrical and electronic equipment through separation of contaminated fractions

Author

Ayah Alassali, Kerstin Kuchta, Hugo Tirion, Yanik Moldt, and Despoina Barouta

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, media_common.quotation_subject, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, 010501 environmental sciences, E-waste, Flame retardants, 01 natural sciences, XRF analysis, Electronic equipment, Antimony, Hazardous waste, Environmental Chemistry, Quality (business), Waste Management and Disposal, 0105 earth and related environmental sciences, media_common, 021110 strategic, defence & security studies, Bromine, Contamination, Pulp and paper industry, Pollution, chemistry, Environmental science, Plastic fraction contamination

Abstract

Summarization: The aim of this study is to provide an evaluation of the recyclability of plastics derived from electrical equipment from contamination standpoint. A database was created to find trends in potentially toxic elements (PTEs) and bromine concentrations; in relation to unit’s application, color, polymer type, and production date. For this study, 142 kg of plastics derived from waste electrical and electronic equipment, from the collection group 5, were analyzed. Less than 1.5 % of the analyzed material indicated hazardous characteristics due to their PTEs concentrations (following RoHS and REACH). Regarding the bromine (Br) content, larger quantities of plastics showed recycling incompatibility; 71 parts with total weight of 11 kg (8 %-wt) contained Br concentrations >2000 mg kg−1. The highest average value of Pb, Cd, Hg and Cr combined falls under the application category ‘tools’, which was as well the trend in appliances from before 1990. The same trend was observed for Br and antimony (Sb) contents; high concentrations were found in appliances from the ‘tools’ category. This study concludes that plastics derived from colored appliances and appliances labeled as tools have to be evaluated before being sent for recycling, due to high contamination risks. Presented on: Journal of Hazardous Materials

Published

2019

47. Classification of plastic waste originated from waste electric and electronic equipment based on the concentration of antimony

Author

Ayah Alassali, Kerstin Kuchta, Silvia Fiore, and Marco Abis

Subjects

Antimony, Acid digestion, Environmental Engineering, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, Hazardous, 010501 environmental sciences, 01 natural sciences, Electronic equipment, chemistry.chemical_compound, Hazardous waste, Environmental Chemistry, Aqua regia, Waste Management and Disposal, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, e-waste, Plastic Waste, Pulp and paper industry, Pollution, chemistry, Environmental science, Plastic waste, Leaching (metallurgy), Microwave

Abstract

The aim of this research is a preliminary assessment of antimony concentration in plastic fractions deriving from different e-waste. We considered microwave ovens, desktop computers, laptops, mobile phones, a TV case, a PC monitor and LED lamps (63 items in total). The plastic fraction ranged from 8%-wt in computers and microwave ovens, up to 40%-wt in cell phones and 59%-wt in LED lamps. Specific polymers were identified through Near Infrared spectroscopy. The samples followed three parallel procedures: acid digestion with aqua regia; conversion into ashes at 600 °C then acid digestion with aqua regia; leaching according to UNI10802 reference procedure. Plastic components with significant amounts of antimony were the ones derived from desktop computers (25–1900 mg/kg) and from microwave ovens (830 mg/kg), yet their relative amount compared to the total weight of the item was limited. Items with larger plastic fractions showed lower concentrations of antimony (1–6 mg/kg in mobile phones cases and 160–640 mg/kg in plastic components of LED lamps). Leaching tests revealed that the analyzed plastic fractions could be mostly admitted in non-hazardous waste landfills. The analysis of ashed samples highlighted the need to further improve the acidic extraction procedure.

Published

2019

48. Environmentally Friendly Leaching of Antimony from Mining Residues Using Deep Eutectic Solvents: Optimization and Sustainable Extraction Strategies.

Author

Sudová, Michaela, Sisol, Martin, Kanuchova, Maria, Marcin, Michal, and Kurty, Jakub

Subjects

CHOLINE chloride, EUTECTICS, ANTIMONY, LEACHING, MINE waste, SOLVENTS, ETHYLENE glycol

Abstract

This paper focuses on the environmental leaching of antimony, a critical mineral, using deep eutectic solvents. Mining residues often contain embedded antimony, posing environmental risks. Deep eutectic solvents, known for being low in toxicity, cost-effective, and environmentally friendly, present a promising avenue for sustainable antimony extraction. The study focuses on optimizing the leaching process through experimental analysis by considering variables such as temperature, time, and percentage of solids. Different deep eutectic solvent (DES) compositions are being studied, including choline chloride with malonic acid, thiourea, and ethylene glycol in different molar ratios, to identify the most effective solvent system for antimony extraction. A sample, originally obtained from mining waste produced via the flotation of antimonite ore, was used to test these three types of DESs. By optimizing the leaching process by changing the ratio of solid and liquid components, as well as the amount of oxidizing agent up to 3 g, iodine, yields of up to 100% were achieved after leaching for 4 h at 100 °C. The aim of the study is to advance sustainable resource management by providing knowledge on an ecological and feasible method of extracting antimony from mine waste, leading to more conscious and efficient resource practices in the mining sector. [ABSTRACT FROM AUTHOR]

Published

2024

49. A Facile Method to Incorporate Di‐Dopant Elements (F and Sb) into Crystalline Mesoporous Tin Dioxide Nano Powder at Ambient Temperature and Pressure.

Author

Aqeel, Tariq and Greer, Heather F.

Subjects

*STANNIC oxide, *PHOTOELECTRON spectroscopy, *TRANSMISSION electron microscopy, *SURFACES (Technology), *SURFACE area

Abstract

A simple two step synthetic method for di‐doped crystalline mesoporous tin dioxide powder containing antimony and fluoride at ambient pressure and temperature has been developed. This approach produced materials with high surface areas and improved electrical and optoelectrical conductance. The two dopant elements; antimony and fluoride were introduced to tin dioxide by two approaches. Both approaches produced mesoporous tin dioxide with antimony and fluoride that are integrated in the framework. The structures of these materials are analyzed by powder X‐ray diffraction, N2 sorption analysis, transmission electron microscopy, energy dispersive X‐ray spectroscopy and X‐ray photoelectron spectroscopy. The conductance of the materials improved by factor of 13–34 compared to undoped mesoporous tin dioxide. The effect of the di‐doped elements on structure, conductance and optoelectronic properties of these materials are discussed in this paper. [ABSTRACT FROM AUTHOR]

Published

2024

50. Flotation study on low-grade antimony ore of qilla abdullah, Balochistan, Pakistan

Author

R Mehmood, A Akram, A Mehmood, MA Bhatti, KR Kazmi, and Abdul Ahad

Subjects

Pulp (paper), Metallurgy, Pharmaceutical Science, Beneficiation, chemistry.chemical_element, engineering.material, Complementary and alternative medicine, Antimony, chemistry, engineering, Environmental science, Pharmacology (medical), Froth flotation, Stibnite

Abstract

A low-gradeantimony deposit originating from district Qilla Abdullah, Balochistan Province of Pakistan, containing stibnite as an economical mineral was beneficiated by froth flotation technique. Flotation parameters such as particle size of the feed, pulp density, pH of the pulp, agitation speed, type and dose of reagents (i.e. collector, frother, activator, regulator and modifier) and the conditioning time were studied on the basis of single-factor variation experiment in order to get the optimum grade and recovery. Regrinding of the rougher concentrate followed by cleaning andrecleaning of rougher concentrateensured a final concentrate grade of 65.12% Sb@ 85.79% recovery. This concentrate is suitable for the extraction of metal and production of chemicals. DOI: http://dx.doi.org/10.3329/bjsir.v49i2.22003 Bangladesh J. Sci. Ind. Res. 49(2), 95-102, 2014

Published

2015