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63. Concentration Variation and Morphological Types of PM2.5 in Suburban of Yinchuan City

Author

Chen, Wu, Dong, Fa Qin, Deng, Yue Quan, Dai, Qun Wei, Huang, Yun Bi, and Zhou, Shi Ping

Abstract

PM2.5 samples were collected by Desktop Aerosol Monitor Models 8530 and recorded the meteorological conditions in study site of Yinchuan City simultaneously. The daily averages of PM2.5 mass concentration varied from 0.134 to 0.222mg m3. The result shows that there are two apparent peaks of PM2.5 concentration in one day. Normally,PM2.5 mass concentration and temperature have some negative correlation. Their morphologies were determined by scanning electron microscopy (SEM). The particles were classified into four groups based on morphology. They were fly ash, mineral matter, irregular shaped mineral particle aggregation and other types. Fly ash and mineral matter were the two dominant types and fly ash is identified as originating from coal combustion or metallurgical plants, mineral matter from natural sources such as soil dust, resuspension of dust from roads.

Published
2013
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64. Mineral Characteristics Analysis of PM2.5 in Northern China

Author

Liu, Li Zhu, Dong, Fa Qin, He, Xiao Chun, Dai, Qun Wei, and Huang, Yun Bi

Abstract

PM2.5 (sandstorm-related) was sampled at four sites near dust source areas in Northern China in spring 2012. Every site was away from obvious pollution source. After drying 24 hours in a dry dish, X-ray diffraction (XRD), x-ray fluorescence (XRF) and scanning electron microscope (SEM) of all the samples were examined. The main phases were quartz, albite, calcite and mica. SEM observations showed that the particles were mainly irregular shaped, but different sample the particle morphology is slightly different. And the surface was rough because of erosion mark or pores on them. The chemical composition of PM2.5 is characteristic of high SiO2 and CaO, while low K2O, Na2O. Main elements of the samples were Si, Al, Fe, Ca, which were familiar with crust elements and dust fall components [, but some samples also contained low-level heavy metals like As and Pb.

Published
2013
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65. Interaction between alizarin red S-aluminum(II) complexes and albumin bovine scrum.

Author

LI Hong-Bo, WANG Xing-ming, LIU Hai-Ping, DONG Fa-qin, KANG Ming, and DING Li-sheng

Subjects
ALIZARIN, ALUMINUM, ALBUMINS, SPECTROPHOTOMETRY, LIGHT metals, PROTEINS
Abstract

The interaction of alizarin red S(ARS)-aluminum(III) complex with albumin bovine scrum (BSA) was investigated by UV-V is spectrophotometric method in acidity buffer solution with pH of 4. 28. It is indicated that ARS-Al(III)-BSA is a red color coordination compound possessing the maximum absorption of 510 nm with red shift of 82 nm, 75 nm and 74 nm compared to ARS, ARS-BSA and ARS-Al(III) complex respectively. Its amount absorptivity coefficient is 2. 65 x 104 L ⋅ mol-1 ⋅ cm-1, and its combination proportion is defined as nARS : nAl(III) : nRSA = 6 : 4 : 1. Condition equilibrium constant of reaction of ARS-Al(III) with BSA is 8.80 x 108 L ⋅ mo;-1. The combined action between BSA and ARS-Al(III) is the coordinate bond and electrostatic force. [ABSTRACT FROM AUTHOR]

Published
2009

66. First‐principles calculation of temperature‐dependent electronic transitions mechanism in V or Nb substituted BiFeO3.

Author

Li, Hai‐long, Bian, Liang, Dong, Fa‐qin, Song, Mian‐xin, Li, Wei‐min, Riehle, Frank S., Jiang, Xiao‐qiang, Lin, Yan‐hui, Wang, Cheng‐xia, Li, Yu, and Luo, Wei‐hui

Subjects
ELECTRON-electron interactions, DENSITY functional theory, STATISTICAL correlation
Abstract

Here, we present a simulation study of temperature‐dependent electronic transitions in BiVO3 (BVO) and BiNbO3 (BNO) using density functional theory (DFT) together with generalized gradient approximation (GGA) and two‐dimensional correlation analysis (2D‐CA). The results indicate that heat accumulation can accelerate the degeneracy of V‐3d orbital in BVO and the splitting of Nb‐4d orbital in BNO at 750 K. We found changes in the type of d–p hybrid orbital as follows, for BVO: V‐dx2+y2 + dZ2‐O‐2pz → V‐dx2+y2‐O‐2pz; and for BNO: Nb‐dx2+y2‐O‐2pz → Nb‐dx2+y2 + dZ2‐O‐2pz. Furthermore, we found changes in the type of hybrid orbital leading to the following electron–electron interactions, for BVO: t2g (V‐dZ2‐O‐2pz) + eg (V‐dx2+y2‐O‐2pz) → t2g (V‐dx2+y2‐O‐2pz); and for BNO: t2g + eg (Nb‐dx2+y2 + dZ2‐O‐2pz) → t2g (Nb‐dx2+y2‐O‐2pz) + eg (Nb‐dz2‐O‐2pz). The electronic transitions are determined by a charge‐transfer from the occupied O‐2p4 orbitals to the unoccupied V‐3d3 (or Nb‐4d3) and Bi‐6p3 orbitals. Due to the temperature‐dependent electronic structure closely related to these electronic transitions, this study provides a new perspective for the design and improvement of BFO‐based temperature‐sensitive devices. [ABSTRACT FROM AUTHOR]

Published
2019
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67. Surface crystal chemistry and anisotropy of spodumene flotation with sodium oleate.

Author

Xu Long-hua, Dong Fa-qin, Tian Jia, Wang Jin-ming., Wang Zhen, Wu Hou-qin, Xu Long-hua, Dong Fa-qin, Tian Jia, Wang Jin-ming., Wang Zhen, and Wu Hou-qin

Abstract

Due to the same active Al atoms contained by spodumene, beryl and feldspar, the characteristic surface crystal chemistry of minerals was found to be the major contributing factor for the selective flotation separation. The surface crystal chemistry and anisotropy of spodumene flotation with sodium oleate (NaOL) were studied using single mineral flotation tests, zeta potential measurements, infrared spectral analysis, density functional theory calculation and molecular dynamics simulation. The results show that the flotation recovery rate first increases but then decreases with increasing pH. The flotation recovery rate reaches maximum value at pH 8.5. Within the appropriate particle size range, when the particle size is much more coarse the flotation recovery is higher which shows Al sites on the surface of minerals reacting with NaOL by chemisorption. The order of broken bond densities on the surface of the spodumene crystal planes and interaction energy with NaOL is (110), (001), which is the main cause for the difference in flotation behaviour of spodumene for different particle size fractions., Due to the same active Al atoms contained by spodumene, beryl and feldspar, the characteristic surface crystal chemistry of minerals was found to be the major contributing factor for the selective flotation separation. The surface crystal chemistry and anisotropy of spodumene flotation with sodium oleate (NaOL) were studied using single mineral flotation tests, zeta potential measurements, infrared spectral analysis, density functional theory calculation and molecular dynamics simulation. The results show that the flotation recovery rate first increases but then decreases with increasing pH. The flotation recovery rate reaches maximum value at pH 8.5. Within the appropriate particle size range, when the particle size is much more coarse the flotation recovery is higher which shows Al sites on the surface of minerals reacting with NaOL by chemisorption. The order of broken bond densities on the surface of the spodumene crystal planes and interaction energy with NaOL is (110), (001), which is the main cause for the difference in flotation behaviour of spodumene for different particle size fractions.

68. Effects of halogen substituted on the Mn-O electron transfer of NiMn2O4.

Author

Li, Hai-Long, Bian, Liang, Dong, Fa-Qin, Li, Wei-Min, Zou, Hao, and Song, Mian-Xin

Subjects
*CHARGE exchange, *ELECTRON-electron interactions, *HALOGENS, *SEMICONDUCTOR materials, *ELECTRON capture
Abstract

To observe the effect of halogen-substitution on the Mn-O electron transfer of NiMn2O4, we calculated Mn-mixed-valence configuration (charge-disproportionation) and oxygen vacancy by the density functional theory (DFT). The results indicate that the halogen-p5 state induces the O-2p orbital splitting to create an oxygen vacancy in the VB (valence band: about −5 eV). The oxygen vacancy can capture an electron from Mn 3 + -3d5 orbital that makes the Mn 3 + -3d5 change to Mn 4 + -3d4 states (Mn-charge disproportionate), and providing many effective-hole (40.14 ∼ 96.72 × 10 − 3 1  kg). The halogen-p5-O-2p4 hybrid orbitals enhance the O-2p4-Mn-3d5 p-d hybrid orbital (about 19.18 electron). That increases the surface potential in Mn-O octahedron (for Cl-substituted: about 60 meV), the corresponding electron–electron interactions change from complex t 2 g (O-2p4-Mn 3 + -3d 5) to complete t 2 g (O-2p4-Mn 4 + -3d 4) -e g (O-2p4-halogen-p5) orbital. This study effectively analyzes the microscopic changes of the electron transfer caused by the small amount of doping, provides a theoretical basis for the design of NMO-based semiconductor material. [ABSTRACT FROM AUTHOR]

Published
2019
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69. First‐principles calculation of temperature‐dependent electronic transitions mechanism in V or Nb substituted BiFeO3.

Author

Li, Hai‐long, Bian, Liang, Dong, Fa‐qin, Song, Mian‐xin, Li, Wei‐min, Riehle, Frank S., Jiang, Xiao‐qiang, Lin, Yan‐hui, Wang, Cheng‐xia, Li, Yu, and Luo, Wei‐hui

Subjects
*ELECTRON-electron interactions, *DENSITY functional theory, *STATISTICAL correlation
Abstract

Here, we present a simulation study of temperature‐dependent electronic transitions in BiVO3 (BVO) and BiNbO3 (BNO) using density functional theory (DFT) together with generalized gradient approximation (GGA) and two‐dimensional correlation analysis (2D‐CA). The results indicate that heat accumulation can accelerate the degeneracy of V‐3d orbital in BVO and the splitting of Nb‐4d orbital in BNO at 750 K. We found changes in the type of d–p hybrid orbital as follows, for BVO: V‐dx2+y2 + dZ2‐O‐2pz → V‐dx2+y2‐O‐2pz; and for BNO: Nb‐dx2+y2‐O‐2pz → Nb‐dx2+y2 + dZ2‐O‐2pz. Furthermore, we found changes in the type of hybrid orbital leading to the following electron–electron interactions, for BVO: t2g (V‐dZ2‐O‐2pz) + eg (V‐dx2+y2‐O‐2pz) → t2g (V‐dx2+y2‐O‐2pz); and for BNO: t2g + eg (Nb‐dx2+y2 + dZ2‐O‐2pz) → t2g (Nb‐dx2+y2‐O‐2pz) + eg (Nb‐dz2‐O‐2pz). The electronic transitions are determined by a charge‐transfer from the occupied O‐2p4 orbitals to the unoccupied V‐3d3 (or Nb‐4d3) and Bi‐6p3 orbitals. Due to the temperature‐dependent electronic structure closely related to these electronic transitions, this study provides a new perspective for the design and improvement of BFO‐based temperature‐sensitive devices. [ABSTRACT FROM AUTHOR]

Published
2019
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70. DFT simulation on the temperature-dependent electronic transition of V (Nb or Ta) substituted NiMn2O4.

Author

Li, Hai-Long, Bian, Liang, Chang, Ai-Ming, Jian, Ji-Kang, Hou, Wen-Ping, Gao, Lei, Zhang, Xiao-Yan, Wang, Lei, Ren, Wei, Song, Mian-Xin, and Dong, Fa-Qin

Subjects
*DENSITY functional theory, *TEMPERATURE effect, *ELECTRON transitions, *VANADIUM, *NICKEL compounds, *CHARGE exchange
Abstract

Previously, we reported that the - (Mn--O-) orbital hybridization induces Mn valence change (MnMn) in the octahedron. The electron transfer mechanism can be controlled by modifying the Mn- orbital in the octahedron. Here, we used the density functional theory (DFT) with generalized gradient approximation (GGA) and two-dimensional correlation analysis (2D-CA) techniques to calculate the electron transfer mechanism of the V (Nb or Ta) substituted NiMn2O4 (NMO) in the temperature range of 50-1500 K. The results show that the heat accumulation accelerates the O- orbital splitting, inducing charge disproportionation. The V- substituted Mn increases the intensity and of the partial density of state (PDOS) at conduction band (1-3 eV), this enhances the V--O- - orbital. The Nb-/Ta- substituted Mn reduces the intensity of the PDOS at conduction band (1-5 eV), this weakens the Nb-/Ta--O- - orbital. This study effectively analyzes the microscopic changes of the electron transfer caused by the heat accumulation, provides a theoretical basis for the design of NMO-based negative temperature coefficient (NTC) thermistors. [ABSTRACT FROM AUTHOR]

Published
2016
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71. [Nano-silicon Dioxide Affects Apoptosis of Alveolar Macrophages via PI3K/AKt Signaling Pathway].

Author

Li N, Chen XW, Huo TT, Dong FQ, and Deng JJ

Subjects
Environmental Pollutants toxicity, Humans, Apoptosis drug effects, Macrophages, Alveolar drug effects, Macrophages, Alveolar enzymology, Phosphatidylinositol 3-Kinase metabolism, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction drug effects, Silicon Dioxide toxicity
Abstract

Objective: To investigate the effect of phosphatidyl inositol 3-kinase/protein kinase B (PI3K/AKt) signaling pathway on the apoptosis of alveolar macrophages (AM) induced by nano-silica (NS) dust., Methods: After exposure to different concentrations of NS suspension, CCK-8 assay was used to detect the AM viability; the cellular morphology of apoptotic AM was observed under fluorescence microscopy; the apoptosis rate and mitochondrial transmembrane potential of cells were detected by flow cytometry before and after pretreatment with phosphatidyl inositol 3-kinase (PI3K) inhibitor LY294002; Western blot was used to detect the expression of apoptosis-related proteins Bax, Bcl-2, p-PI3K and p-AKt., Resluts: The survival rate of AM was decreased in a time-dose relationship after NS exposure. With LY294002 pretreatment, the mitochondrial transmembrane potential level and the expressions of p-PI3K, p-AKt and Bcl-2 were decreased, the expression of Bax and the apoptosis rate were increased., Conclusion: Our data suggested that the activation of PI3K/AKt signaling pathway played an important role in NS-induced apoptosis in alveolar macrophages., (Copyright© by Editorial Board of Journal of Sichuan University (Medical Science Edition).)

Published
2020
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72. [Comparation of Toxic Effect of Silicious Mineral Dusts on Lung Epithelial A549 Cells].

Author

Huo TT, Dong FQ, Deng JJ, Zhang QB, He XC, and Sun DP

Subjects
A549 Cells, Cell Survival, Cytokines metabolism, Humans, Hydrogen Peroxide, Minerals, Oxidative Stress, Quartz, Dust, Epithelial Cells drug effects, Silicon Dioxide toxicity
Abstract

Considering the high contents of minerals and the potential health risk of mineral dusts to human and the environment, this paper was aimed to figure out the toxic effect and mechanism of four common mineral particles (quartz, albite, sericite, and montmorillonite). Cytotoxicity assays for cell viability (MTT assay), membrane integrity (LDH assay), oxidative stress (H 2 O 2 assay) and inflammatory cytokines (TNF-α and IL-6 assay) were applied. The results showed the influence of these mineral particles on A549 cell viability followed the order of momtmorillonite > cericite≥quartz > albite. There was no obvious relation between cell viability and the content of SiO 2 , however, good linear correlation with the content of iron, and the cytotoxicity of mineral dusts was strengthened with increasing iron content. Mineral dusts generated H 2 O 2 in cell or cell-free systems. In particular, H 2 O 2 exhibited a linear correlation with the iron content, which meant that iron in the mineral dusts played an important role in the generation of reactive radical. Among those samples, oxidative stress induced by montmorillonite was distinctly stronger, while there was negligible influence induced by quartz and albite. Besides, all the tested samples induced damage to A549 cell membrane, and triggered the release of TNF-α or IL-6, but differed by the kinds of mineral dusts. In conclusion, composition and structure directly affected, but were not the only factors that contributed to the biological activity of mineral dusts, the evaluation of cell viability, membrane damage, free radicals and inflammatory reaction induced by mineral dusts should take the external morphology, surface active groups, solubility, adsorption and ion exchange properties into consideration.

Published
2016
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73. [Biosorption and Biomineralization of Uranium(VI) from Aqueous Solutions by Landoltia Punctata].

Author

Nie XQ, Dong FQ, Liu N, Zhang D, Liu MX, Yang J, and Zhang W

Subjects
Adsorption, Biodegradation, Environmental, Phosphates, Phosphorus, Plant Roots metabolism, Spectroscopy, Fourier Transform Infrared, Araceae metabolism, Uranium metabolism
Abstract

The biosorption and biomineralization characteristics of uranium by the duckweed Landoltia punctata was investigated in aqueous solutions enriched with 1 to 250 mg · L(-1) of U(VI) supplied as uranyl nitrate [UO2(NO3)2 · 6H2O]. The maximum uranium removal for the plant cultivar occurred at pH 4~5 of solution and their uranium removal efficiencies exceeded 90% after 24 h. In kinetics studies, the dried powder of duckweed can finished nearly 80% adsorption within 5 min, the batch adsorption equilibrium can be reached within 24 h for the living and dried powder of duckweed, Both for the living and dried powder of duckweed, the experimental data were well fitted by the pseudo-second-order rate model with the degree of fitting (r) higher than 0.99. The adsorption isotherms could be better described by the Freundlich model than the Langmuir model. In addition, Fourier transform infrared spectroscopy (FTIR) revealed that the surface of Landoltia punctata possess many active groups such as hydroxyl, carboxyl, phosphate and amide groups, the hydroxyl, amino groups involved in adsorption of U(VI) by living and dried powder of Landoltia punctata, and the phosphate groups also participated in the adsorption behavior of U(VI) by the living Landoltia punctata. The living Landoltia punctata reduction part of U(VI) to U(IV) was observed by XPS analysis. SEM and energy dispersive X-ray spectroscopy (EDS) of duckweed from 10~200 mg · L(-1) uranium treatments indeed showed root surface of living Landoltia punctata formed a significant portion of U precipitates with nanometer sized schistose structures that consisted primarily U and P, not containing C. Inorganic phosphate was released by the root cells of Landoltia punctata during the experiments providing ligands for formation of insoluble U(VI) and U(IV) phosphates. The distinct uranium peaks in the EDS spectra of the cluster on the root surface can be observed after biosorption and the uranium and phosphorus mass ratio of the cluster spot was measured to be 82.5% and 8.76% of the total component weight, respectively, and the atomic percentage of 30.89% and 25.19%, respectively. It is worth noting that the phosphorus mass ratio and the atomic rate of the control group is only 0.24% and 0.11%, respectively. But there was no similar crystals observed on the surface of dried powder of Landoltia punctata after biosorption. The present work suggests that living and dried powder of Landoltia punctata can remove more than 90% U(VI) from solution simultaneously precipitated together with phosphate by the living Landoltia punctata, and the dried powder of Landoltia punctata adsorption U(VI) is mainly through the effect of electrostatic attraction, ion exchange and complexation coordination, etc. Here, for the first time, the presence of U immobilization mechanisms within one aquatic plant is reported using Landoltia punctata.

Published
2015

74. [Biosorption of Radionuclide Uranium by Deinococcus radiodurans].

Author

Yang J, Dong FQ, Dai QW, Liu MX, Nie XQ, Zhang D, Ma JL, and Zhou X

Subjects
Biodegradation, Environmental, Microscopy, Electron, Scanning, Radioisotopes, Solutions, Spectroscopy, Fourier Transform Infrared, Deinococcus metabolism, Uranium metabolism
Abstract

As a biological adsorbent, Living Deinococcus radiodurans was used for removing radionuclide uranium in the aqueous solution. The effect factors on biosorption of radionuclide uranium were researched in the present paper, including solution pH values and initial uranium concentration. Meanwhile, the biosorption mechanism was researched by the method of FTIR and SEM/EDS. The results show that the optimum conditions for biosorption are as follows: pH = 5, co = 100 mg · L(-1) and the maximum biosorption capacity is up to 240 mgU · g(-1). According to the SEM results and EDXS analysis, it is indicated that the cell surface is attached by lots of sheet uranium crystals, and the main biosorpiton way of uranium is the ion exchange or surface complexation. Comparing FTIR spectra and FTIR fitting spectra before and after biosorption, we can find that the whole spectra has a certain change, particularly active groups (such as amide groups of the protein, hydroxy, carboxyl and phosphate group) are involved in the biosorption process. Then, there is a new peak at 906 cm(-1) and it is a stretching vibration peak of UO2(2+). Obviously, it is possible that as an anti radiation microorganism, Deinococcus radiodurans could be used for removing radionuclide uranium in radiation environment.

Published
2015

75. [Quantitative detection of hydroxyl radical generated in quartz powder/phosphate buffer solution system by fluorescence spectrophotometry].

Author

Liu LZ, Dong FQ, Sun SY, He XC, and Wang MC

Abstract

Quartz powder would release radical hydroxyl in phosphate buffer solution. In order to detect the quantity of radical hydroxyl with a quite low concentration, the present paper established a fluorescence method. According to the relationship between the concentration of 2-hydroxyl of terephthalic acid (HOTP) and fluorescence intensity at the wavelength of EX(max)/EM(max) = 316 nm/422 nm, a working standard curve was constructed. Then through the filtrated fluorescence intensity obtained from the powder and solution system, cumulative concentration of * OH can be measured indirectly. By repeating tests and analysis of five different experimental conditions of * OH cumulative concentration, the minimum detection limit of the method reached 1.59 x 10(-10) mol x L(-1), with a relative deviation of 1.20%-7.89%, standard deviation was 1.09 x 10(-9)-2.17 x 10(-9) mol x L(-1) and the relative standard deviation was 3.5%-5.8%. The method features high accuracy and good repeatability performance. Compared to other quantitative studies, this method might be applied to test radical hydroxy produced in pH neutral solution systems. In addition, it has apparent advantages such as low detection limit, low cost, higher sensitivity, and better stability and reproducibility. That provides the means for the quantitative study of mixed systems consisting of quartz powder and phosphate buffered solution.

Published
2014

76. [Characteristics of U (VI) biosorption by biological adsorbent of platanus leaves].

Author

Nie XQ, Dong FQ, Liu MX, Liu N, Zhang W, and Yang XY

Subjects
Adsorption, Biodegradation, Environmental, Mining, Wastewater chemistry, Water Pollutants, Radioactive chemistry, Plant Leaves chemistry, Trees chemistry, Uranium isolation & purification, Waste Disposal, Fluid methods, Water Pollutants, Radioactive isolation & purification
Abstract

The platanus leaves were used as adsorbent to study uranium removal efficiency from aqueous solution on the basis of adsorption kinetics and isotherm equations. Static adsorption affected by initial pH values and contact time was analyzed, and surface characteristics of platanus leaves and uranium removal mechanism were investigated with the help of SEM, FTIR, XRD and XRF. The adsorption process fits pseudo-second-order kinetic model and Freundlich isotherm equation, and the maximum adsorption capacity for uranium was 19.68 mg x g(-1). Results showed that hydroxyl groups, amides II belt and carboxyl active functional groups were important for uranium removal. Structure characteristic adsorption band of cellulose was found in XRD spectra, uranium was detected, and also Ca and Na elements of the content increased. Mg element content relative decrease was found on platanus leaves after adsorption by XRF, and it proved the reaction feasibility. Speculation for the behavior of uraniu adsorption by platanus leaves was both physical adsorption and chemical adsorption, exhibiting joint action of electrostatic attraction, redox reaction, chelating ligand and ion exchange.

Published
2013

77. [FTIR analysis of Sr2+ biosorption by Bacillus spp. strains isolated from soil treated with gamma-ray radiation].

Author

Dai QW, Dong FQ, Wu XL, and Li QF

Subjects
Adsorption, Bacillus isolation & purification, Bacillus metabolism, Soil chemistry, Soil Pollutants isolation & purification, Soil Pollutants metabolism, Strontium metabolism, Bacillus radiation effects, Gamma Rays, Soil Microbiology, Spectroscopy, Fourier Transform Infrared methods, Strontium isolation & purification
Abstract

One strain bacterium was isolated from purple soil of Sichuan basin. It was subject to Bacillus according to analysis results of 16S rDNA. The effect of its biosorption to Sr2+ under gamma-ray radiation was studied in this paper. As for the whole kinetic biosorption curves, the results show that bacterial growth rates of test groups have retardation phenomena compared to the control groups without radiation. Such as the appearance of biosorption equilibrium retarded 1.5 d while the max growth rate retarded 0.5 d after the radiation SEM analysis showed that the bacterial cells had abnormity distortion after radiation. This proved that gamma-ray radiation can bring obvious damage to experimental bacterial cells. FTIR analysis results indicated that bacteria cells were damaged by radiation and Sr2+ has cooperation damage effects with radiation in aqueous condition, and the bacterial cells of log phase are easier to be damaged by coming forth radiation than those of lag phase. This radiation damage under different radiation condition mainly leads to that the characteristic peaks of amylase, protein amide and lipids on bacterial cells are slightly shifted.

Published
2012

78. [Comparative study of the cytotoxicity induced by chrysotile asbestos, rock wool and substitute fibers in vitro].

Author

Deng JJ, Dong FQ, Wang LM, Gan SY, Liu J, and Zeng YL

Subjects
Animals, Cell Line drug effects, Cricetinae, Lactate Dehydrogenases metabolism, Asbestos, Serpentine toxicity, Calcium Compounds toxicity, Cytotoxins toxicity, Mineral Fibers toxicity, Silicates toxicity
Abstract

Objective: To study the cytotoxicity induced by chrysotile asbestos (CA), rock wool (RW) and wollastonite (WS)., Methods: V79 cells were divided into 4 groups. i.e. CA group, WS group, RW group and control group (200 microl PBS). The exposure concentration of dusts was 100 mg/L, The cell viability was detected by MTT and lactate dehydrogenase (LDH) activity assays. The technique of scanning electron microscopy was used to examine the change of V79 cells., Results: SiO2 was main constituent for 3 kinds of dusts. In MTT assay, the cell viability of RW and WS groups was 64.8% and 65.7%, respectively, which were significantly higher than that (54.5%) of CA group (P < 0.01). In LDH assay, the LDH activity of RW and WS groups [(15.7 +/- 50.9), (12.3 +/- 3.7) U/L, respectively] was significantly lower than that [(20.2 +/- 0.9) U/L] of CA group (P < 0.05). In scanning electron microscopy examination, it was found that the two ends of V79 cells in CA group contained a great deal of fibers remaining bodies, but the V79 cell appearance in RW and WS groups was normal., Conclusion: The cytotoxicity induced by RW and WS is significantly lower than that induced by CA for V79 cell.

Published
2011

79. [Biosorption of lead ions on dried waste beer yeast and the analysis by FTIR].

Author

Dai QW, Dong FQ, and Zhang W

Subjects
Adsorption, Biodegradation, Environmental, Lead chemistry, Microscopy, Electron, Scanning, Saccharomyces cerevisiae ultrastructure, Spectrometry, X-Ray Emission, Spectroscopy, Fourier Transform Infrared, Time Factors, Beer microbiology, Industrial Waste, Lead isolation & purification, Lead metabolism, Saccharomyces cerevisiae metabolism
Abstract

The biosorption of lead ions on dried waste beer yeast was investigated with respect to the adsorption conditions and the biosorption mechanism was analyzed with the instruments of AAS, SEM/EDS and FTIR. The results show that the metal uptake value obtained was 47.6 mg x g(-1) and the adsorptive efficiency was above 90%. Under our experiment conditions, the biosorption of Pb2+ on dried waste beer yeast is a fast process. The biosroption quantity of Pb2+ on beer yeast cells was 47.6 mg x g(-1) and the adsorption efficiency obtained was 91.6% in fisrt 30 min, then the metal uptake value obtained was 48.8 mg x g(-1) and the adsorptive efficiency was above 94% at 90 min. The cells cracking and breaking off were seen after the biosorption of lead ions on beer yeast through SEM analysis, and the cytoplasts from yeast cell should be responsible for the last period biosorption of lead ions. EDS analysis also proved that lead ions were absorbed on the yeast cells. FTIR analysis showed that the infrared spectrograms are different at different pH and biosorption time, especially hydroxyl groups, carboxylate groups and amide groups have obviously changed. Amylase and amide of protein were considered as main components to participate the chemical absorption of lead ions on yeast cells. Consequently, dried waste beer yeast is an inexpensive, readily available adsorbent for metals and especially has a high adsorption capacity for lead ions.

Published
2009

80. [Spectra study on the varied features of crocidolite fibers in rat].

Author

Dong FQ and Luo SQ

Subjects
Animals, Asbestosis pathology, Dust, Microscopy, Electron, Scanning, Mineral Fibers toxicity, Pleural Diseases etiology, Pulmonary Fibrosis etiology, Rats, Silicon, Asbestos, Crocidolite toxicity, Pleural Diseases pathology, Pulmonary Fibrosis pathology
Abstract

Objective: To further study the pathogenic mechanism of crocidolite, the imperceptible changes of crocidolite surface in rat were observed., Methods: The animal model was established and the changes in the rat infected with dust were observed by use of microscopy, SEM, differential thermal analysis and IR spectroscopy., Results: In the course of interaction between organism protein and crocidolite, the protein symmetry decreased and structure loosened. The silicon of crocidolite was bonded with the alkyl, amido- of protein. New absorption bands of Si-O-C(N), Si-R clearly appeared. The organism cleared the dust by means of dissolution, enwrapping, winding or in the way of biochemical dissolution, and the fibre became shortened, broken, bifurcated, ends-rounded, and also it could dissolve, transfer and chemically react on surface., Conclusion: The results showed that the surface radicals of asbestos fibre reacted with some albumen in tissue and hence formed new surface mediator. It is a new form of dissolution and reaction of fibre in vivo that fibres in alveoli transform to carbonate. The residual substances of crocidolite are mainly Si-O. Tissue membrane is the retardation cingulum of dust transference in vivo.

Published
2004

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