Your search keyword '"SEMIMETALS"' showing total 13,389 results

201. 149Sm synchrotron-radiation-based Mössbauer spectroscopy of Sm-based heavy fermion compounds.

Author

Tsutsui, Satoshi, Higashinaka, Ryuji, Mizumaki, Masaichiro, Kobayashi, Yoshio, Nakamura, Jin, Ito, Takashi U., Yoda, Yoshitaka, Matsuda, Tatsuma D., Aoki, Yuji, and Sato, Hideyuki

Subjects

*MOSSBAUER spectroscopy, *MOSSBAUER effect, *DOPPLER effect, *FERMIONS, *X-ray spectroscopy, *SYNCHROTRON radiation, *SEMIMETALS, *ANTIMONY

Abstract

149Sm synchrotron-radiation-based Mössbauer spectroscopy has been applied to Sm-based heavy fermion intermetallics, SmTr2Al20 (Tr = Ti, V and Cr) and SmOs4Sb12. The isomer shifts obtained demonstrate that the Sm valence states in these compounds are intermediate. Since the difference of the isomer shifts in 22.502 keV 149Sm Mössbauer effect between Sm2+ and Sm3+ state is comparable to the 2nd order Doppler shift, consideration of the 2nd order Doppler shift is required to precisely discuss Sm valence state through the shifts of the Mössbauer spectra. In addition, the plots of the isomer shifts obtained by the Mössbauer spectroscopy against the Sm valence states estimated from Sm L-edge X-ray absorption spectroscopy exhibit a linear correlation except for that in SmOs4Sb12. This implies that the origin of the intermediate valence state in SmOs4Sb12 differs from that in SmTr2Al20 (Tr = Ti, V and Cr). [ABSTRACT FROM AUTHOR]

Published

2024

202. Au 30 (P i Pr 2 n Bu) 12 Cl 6 —An Open Cluster Provides Insight into the Influence of the Sterical Demand of the Phosphine Ligand in the Formation of Metalloid Gold Clusters.

Author

Strienz, Markus and Schnepf, Andreas

Subjects

*GOLD clusters, *OPEN clusters of stars, *PHOSPHINE, *GOLD chloride, *GOLD compounds, *SEMIMETALS, *SODIUM hydroxide

Abstract

Phosphine-stabilized gold clusters are an important subgroup of metalloid gold cluster compounds and are important model compounds for nanoparticles. Although there are numerous gold clusters with different phosphine ligands, the effect of phosphine on cluster formation and structure remains unclear. While the linear alkyl-substituted phosphine gold chlorides result in a Au32 cluster, the bulky tBu3P leads to a Au20 cluster. The reduction of (iPr2nBuP)AuCl, with the steric demand of the phosphine ligand between the mentioned phosphines, results in the successful synthesis and crystallization of a new metalloid gold cluster, Au30(PiPr2nBu)12Cl6. Its structure is similar to the Au32 cluster but with two missing AuCl units. The UV/Vis studies and quantum chemical calculations show the similarities between the two clusters and the influence of the phosphine ligand in the synthesis of metalloid gold clusters. [ABSTRACT FROM AUTHOR]

Published

2024

203. Unveiling Influence of Dielectric Losses on the Localized Surface Plasmon Resonance in (Al,Ga)As:Sb Metamaterials.

Author

Ushanov, Vitalii I., Eremeev, Sergey V., Silkin, Vyacheslav M., and Chaldyshev, Vladimir V.

Subjects

*DIELECTRIC loss, *SEMIMETALS, *SURFACE plasmons, *METAMATERIALS, *SURFACE plasmon resonance, *LIGHT absorption, *OPTICAL spectra, *ABSORPTION spectra

Abstract

We perform numerical modeling of the optical absorption spectra of metamaterials composed of systems of semimetal antimony nanoparticles embedded into Al x Ga 1 − x As semiconductor matrices. We reveal a localized surface plasmon resonance (LSPR) in these metamaterials, which results in a strong optical extinction band below, near, or above the direct band gap of the semiconductor matrices, depending on the chemical composition of the solid solutions. We elucidate the role of dielectric losses in Al x Ga 1 − x As, which impact the LSPR and cause non-plasmonic optical absorption. It appears that even a dilute system of plasmonic Sb nanoinclusions can substantially change the optical absorption spectra of the medium. [ABSTRACT FROM AUTHOR]

Published

2024

204. Advances in the Involvement of Metals and Metalloids in Plant Defense Response to External Stress.

Author

Zhang, Lingxiao, Liu, Zhengyan, Song, Yun, Sui, Junkang, and Hua, Xuewen

Subjects

PLANT defenses, SEMIMETALS, HEAVY metal toxicology, TRACE metals, PLANT life cycles, LIFE cycles (Biology)

Abstract

Plants, as sessile organisms, uptake nutrients from the soil. Throughout their whole life cycle, they confront various external biotic and abiotic threats, encompassing harmful element toxicity, pathogen infection, and herbivore attack, posing risks to plant growth and production. Plants have evolved multifaceted mechanisms to cope with exogenous stress. The element defense hypothesis (EDH) theory elucidates that plants employ elements within their tissues to withstand various natural enemies. Notably, essential and non-essential trace metals and metalloids have been identified as active participants in plant defense mechanisms, especially in nanoparticle form. In this review, we compiled and synthetized recent advancements and robust evidence regarding the involvement of trace metals and metalloids in plant element defense against external stresses that include biotic stressors (such as drought, salinity, and heavy metal toxicity) and abiotic environmental stressors (such as pathogen invasion and herbivore attack). We discuss the mechanisms underlying the metals and metalloids involved in plant defense enhancement from physiological, biochemical, and molecular perspectives. By consolidating this information, this review enhances our understanding of how metals and metalloids contribute to plant element defense. Drawing on the current advances in plant elemental defense, we propose an application prospect of metals and metalloids in agricultural products to solve current issues, including soil pollution and production, for the sustainable development of agriculture. Although the studies focused on plant elemental defense have advanced, the precise mechanism under the plant defense response still needs further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

205. Comparative Phytotoxicity of Metallic Elements on Duckweed Lemna gibba L. Using Growth- and Chlorophyll Fluorescence Induction-Based Endpoints.

Author

Irfan, Muhammad, Mészáros, Ilona, Szabó, Sándor, and Oláh, Viktor

Subjects

CHLOROPHYLL spectra, METALS, DUCKWEEDS, LEMNA minor, PHYTOTOXICITY, PLANT morphology, SEMIMETALS

Abstract

In this study, we exposed a commonly used duckweed species—Lemna gibba L.—to twelve environmentally relevant metals and metalloids under laboratory conditions. The phytotoxic effects were evaluated in a multi-well-plate-based experimental setup by means of the chlorophyll fluorescence imaging method. This technique allowed the simultaneous measuring of the growth and photosynthetic parameters in the same samples. The inhibition of relative growth rates (based on frond number and area) and photochemical efficiency (Fv/Fo and Y(II)) were both calculated from the obtained chlorophyll fluorescence images. In the applied test system, growth-inhibition-based phytotoxicity endpoints proved to be more sensitive than chlorophyll-fluorescence-based ones. Frond area growth inhibition was the most responsive parameter with a median EC50 of 1.75 mg L−1, while Fv/Fo, the more responsive chlorophyll-fluorescence-based endpoint, resulted in a 5.34 mg L−1 median EC50 for the tested metals. Ag (EC50 0.005–1.27 mg L−1), Hg (EC50 0.24–4.87 mg L−1) and Cu (EC50 0.37–1.86 mg L−1) were the most toxic elements among the tested ones, while As(V) (EC50 47.15–132.18 mg L−1), Cr(III) (EC50 6.22–19.92 mg L−1), Se(VI) (EC50 1.73–10.39 mg L−1) and Zn (EC50 3.88–350.56 mg L−1) were the least toxic ones. The results highlighted that multi-well-plate-based duckweed phytotoxicity assays may reduce space, time and sample volume requirements compared to the standard duckweed growth inhibition tests. These benefits, however, come with lowered test sensitivity. Our multi-well-plate-based test setup resulted in considerably higher median EC50 (3.21 mg L−1) for frond-number-based growth inhibition than the 0.683 mg L−1 median EC50 derived from corresponding data from the literature with standardized Lemna-tests. Under strong acute phytotoxicity, frond parts with impaired photochemical functionality may become undetectable by chlorophyll fluorometers. Consequently, the plant parts that are still detectable display a virtually higher average photosynthetic performance, leading to an underestimation of phytotoxicity. Nevertheless, multi-well-plate-based duckweed phytotoxicity assays, combined with chlorophyll fluorescence imaging, offer definite advantages in the rapid screening of large sample series or multiple species/clones. As chlorophyll fluorescence images provide information both on the photochemical performance of the test plants and their morphology, a joint analysis of the two endpoint groups is recommended in multi-well-plate-based duckweed phytotoxicity assays to maximize the information gained from the tests. [ABSTRACT FROM AUTHOR]

Published

2024

206. Comprehensive investigation of quantum oscillations in semimetal using an ac composite magnetoelectric technique with ultrahigh sensitivity.

Author

Zhang, Long, Wang, Tianyang, Zhang, Yugang, Liu, Shuang, Sun, Yuping, Zhou, Xiaoyuan, Sun, Young, He, Mingquan, Wang, Aifeng, Luo, Xuan, and Chai, Yisheng

Subjects

SEMIMETALS, THERMOELECTRIC power, FERMI surfaces, OSCILLATIONS, FREQUENCIES of oscillating systems, PHENOMENOLOGICAL theory (Physics)

Abstract

Quantum oscillation (QO), a physical phenomenon that reflects the characteristics of the Fermi surface and transport fermions, has been extensively observed in metals and semimetals through various approaches, like magnetostriction, magnetization, resistivity, and thermoelectric power. However, only limited oscillation frequencies can be revealed by the aforementioned methods, particularly in semimetals with intricate Fermi pockets and associated magnetic breakdown phenomena. In this paper, we present the application of an ac composite magnetoelectric (ME) technique to measure the QOs of a topological nodal-line semimetal, ZrSiS, which possesses six fundamental QO frequencies. By employing the ME technique with a maximum magnetic field of 13 T and a minimum temperature of 2 K, we are able to capture all the fundamental frequencies and most of the permissible magnetic breakdown frequencies. Remarkably, a series of magnetic breakdown frequencies around 8000 T were revealed even in a magnetic field as low as 7.5 T. These findings highlight the ME technique as an ultrahigh-sensitive tool for studying Dirac Fermions and other topological semimetals with complex Fermi surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

207. Chemdex: quantification and distributions of valence numbers, oxidation numbers, coordination numbers, electron numbers, and covalent bond classes for the elements.

Author

Winter, Mark J.

Subjects

*OXIDATION states, *COVALENT bonds, *ELECTRONS, *VALENCE (Chemistry), *DATABASES, *SEMIMETALS

Abstract

The paper introduces Chemdex, a freely accessible web-based database of over 70 000 compounds characterised by crystallography from across the periodic table. Its software calculates for an atom of interest within each compound classifications including valence number, oxidation number, coordination number, electron number, several covalent bond classifications, and the attached atom set. Users may explore distributions of these classifications by percentages and heat map displays for individual elements or sets of elements, or in several cases for one classification plotted against a second. These properties often display clear periodicity. Based upon distributions across the periodic table of valence numbers, electron numbers, coordination numbers, and attached atom data suggestions are made regarding the placement of hydrogen in the periodic table, membership of group 3 in the periodic table, locations of the early actinoids in the periodic table, and assignments of certain elements as metalloids. [ABSTRACT FROM AUTHOR]

Published

2024

208. Valuable elements in sludge from eight municipal wastewater treatment plants in relation to their recovery potential.

Author

Valchev, Dobril, Ribarova, Irina, Borisov, Boyan, Radovanov, Viden, Lyubomirova, Valentina, Kostova, Irina, Dimova, Galina, Karpuzova, Orhideya, and Lazarova, Svetlana

Subjects

SEWAGE disposal plants, SEWAGE sludge, SEMIMETALS, PRECIOUS metals, SLUDGE management, CHEMICAL elements

Abstract

Background: The management of sludge from municipal wastewater treatment plants (WWTPs) is a global issue, but also an opportunity for circular reuse. Recent data show that sludge reuse in agriculture has the highest share of all utilization routes in the EU. Council Directive 86/278/EEC on the spreading of sludge in agriculture, adopted more than 35 years ago, is still relevant, notwithstanding the discussion on the need to update it. Extracting critical, strategic, and precious metals and metalloids from sludge is an alternative for sludge reuse, which offers several benefits, such as avoiding the high environmental and health risks associated with using sludge directly in agriculture. Additionally, it allows for the recovery of metals, including those listed as Critical Raw Materials by the European Commission. To implement this alternative, it is necessary to first assess the metal content in the sludge and then develop economically and technically viable technologies. In this study, the content of chemical elements in the sludge of eight full-scale WWTPs in Bulgaria is analysed with focus on: (1) assessing the suitability for agricultural application by evaluating the content of macro- and micronutrients and hazardous metals; (2) assessing the possibility of using the sludge as a source of critical and precious metals. Results: For the main nutrients, the following contents as a percentage of the sludge dry weight (DW) were recorded—2.06% to 6% for N, 1.52% to 2.67% for P and 0.47% to 0.81% for K, which are in line with case studies of successful sludge application in agriculture. Only sludge samples from two WWTPs exceeded the permitted limit for hazardous metals and metalloids. On the other hand, of the 21 metal and metalloid constituents listed in the EU Critical and Strategic Material (CRM) list, at least one of the examined samples has a content above 10 mg/kg for 15 elements. The average contents in mg/kgDW of Au (1.1), Al (19,272.9), Mg (6677.6), Ti (1730.9), Ga (20.9) and As (16.6) measured in the investigated WWTPs are among the highest or second highest reported in other countries. Conclusions: The results of the study show prospects for optimising and improving the reuse of sewage sludge in Bulgaria. Sewage sludge from most WWTPs has potential for agricultural application due to its high nutrient content. Large amounts of accumulated critical and strategic metals, gold and silver are trapped in Bulgarian sewage sludge, indicating that sewage sludge could be considered an alternative source with high potential for these valuable elements. [ABSTRACT FROM AUTHOR]

Published

2024

209. Allotropic transition of Dirac semimetal α-Sn to superconductor β-Sn induced by focused-ion-beam irradiation.

Author

Inagaki, Kohdai, Ishihara, Keita, Hotta, Tomoki, Seki, Yuichi, Takeda, Takahito, Ishida, Tatsuhiro, Ootsuki, Daiki, Kawasaki, Ikuto, Fujimori, Shin-Ichi, Tanaka, Masaaki, Anh, Le Duc, and Kobayashi, Masaki

Subjects

*SEMIMETALS, *SUPERCONDUCTORS, *PHASE transitions, *THIN films, *PHOTOELECTRON spectroscopy, *FOCUSED ion beams, *IRON-based superconductors

Abstract

Diamond-type structure allotrope α-Sn is attracting much attention as a topological Dirac semimetal (TDS). In this study, we demonstrate that α-Sn undergoes a phase transition to another allotrope β-Sn with superconductivity at low temperature by irradiating with a focused Ga ion beam (FIB). To clarify the transition mechanism, we performed x-ray photoemission spectroscopy (XPS) measurements on an α-Sn thin film irradiated with FIB and an as-grown α-Sn thin film. The XPS results suggest that the local annealing, which is one of the side effects of FIB, causes the transformation from α-Sn into β-Sn. Furthermore, the difference in the chemical states between α-Sn and β-Sn can be quantitatively explained by the crystal structures rather than the degree of metallicity reflecting the conductivity. These results propose a way of fabricating TDS/superconductor in-plane heterostructures based on α-Sn and β-Sn. [ABSTRACT FROM AUTHOR]

Published

2024

210. Hosohedral nodal-line superconductivity in hexagonal ABC Dirac semimetals.

Author

Min, Hong-Guk, Lyi, Churlhi, Park, Moon Jip, and Kim, Youngkuk

Subjects

*SEMIMETALS, *SUPERCONDUCTIVITY, *MAJORANA fermions, *FERMI surfaces, *QUANTUM computing, *DENSITY functional theory, *TERNARY system

Abstract

The recently identified hexagonal non-polar phase of KZnBi, an archetypal topological semimetal, has been found to cohost superconductivity on the surface. We propose that KZnBi can realize an unconventional topological superconductor featuring the hosohedral formation of nodal lines and Bogoliubov Fermi surface emerging under a magnetic field. Our density functional theory (DFT)-based low-energy model shows that the nonsymmorphic band degeneracy of the Dirac bands generically triggers topological nodal line superconductivity fostered by inter-band Coulomb interaction. In particular, the nodal lines of the gap resemble a hexagonal hosohedron with the Schläfli symbol of {2, 6}. Remarkably, the holohedral nodal line superconductor defines the topological phase boundary of the Bogoliubov Fermi surface in the limit where time-reversal symmetry is restored. Our results demonstrate that line nodes readily inflate to the Bogoliubov Fermi surface under an external magnetic field. We provide an experimentally verifiable explanation for the observed superconductivity and suggest a feasible platform for observing topological superconductivity in the hexagonal ABC ternary systems class. Topological superconductivity is anticipated to provide an appropriate platform for realizing Majorana fermions, garnering significant interest for the development of quantum computing. Here, using DFT and many-body mean-field theory, the authors investigate the bulk superconductivity of KZnBi where their calculations suggest the presence of hosohedral nodal-line superconductivity. [ABSTRACT FROM AUTHOR]

Published

2024

211. Bioaccumulation and sources of metal(loid)s in fish species from a subtropical river in Bangladesh: a public health concern.

Author

Ali, Mir Mohammad, Kubra, Khadijatul, Alam, Edris, Mondol, Anwar Hossain, Akhtar, Shahrina, Islam, Md. Saiful, Karim, Ehsanul, Ahmed, A. S. Shafiuddin, Siddique, Md. Abu Bakar, Malafaia, Guilherme, Rahman, Md. Zillur, Rahman, Md. Mostafizur, and Islam, Abu Reza Md. Towfiqul

Subjects

PUBLIC health, HEAVY metals, BIOACCUMULATION, ARSENIC, SEMIMETALS, FRESHWATER fishes, METALS

Abstract

Toxic metals and freshwater fish's metalloid contamination are significant environmental concerns for overall public health. However, the bioaccumulation and sources of metal(loids) in freshwater fishes from Bangladesh still remain unknown. Thus, the As, Pb, Cd, and Cr concentrations in various freshwater fish species from the Rupsha River basin were measured, including Tenualosa ilisha, Gudusia chapra, Otolithoides pama, Setipinna phasa, Mystus vittatus, Glossogobius giuris, and Pseudeutropius atherinoides. An atomic absorption spectrophotometer was used to determine metal concentrations. The mean concentrations of metal(loids) in the fish muscle (mg/kg) were found to be As (1.53) > Pb (1.25) > Cr (0.51) > Cd (0.39) in summer and As (1.72) > Pb (1.51) > Cr (0.65) > Cd (0.49) in winter. The analyzed fish species had considerably different metal(loid) concentrations with seasonal variation, and the distribution of the metals (loids) was consistent with the normal distribution. The demersal species, M. vittatus, displayed the highest bio-accumulative value over the summer. However, in both seasons, none of the species were bio-accumulative. According to multivariate statistical findings, the research area's potential sources of metal(loid) were anthropogenic activities linked to geogenic processes. Estimated daily intake, target hazard quotient (THQ), and carcinogenic risk (CR) were used to assess the influence of the risk on human health. The consumers' THQs values were < 1, indicating that there were no non-carcinogenic concerns for local consumers. Both categories of customers had CRs that fell below the permissible range of 1E − 6 to 1E − 4, meaning they were not at any increased risk of developing cancer. The children's group was more vulnerable to both carcinogenic and non-carcinogenic hazards. Therefore, the entry of metal(loids) must be regulated, and appropriate laws must be used by policymakers. [ABSTRACT FROM AUTHOR]

Published

2024

212. Trend analysis of heavy metal contamination and arsenic levels in complete feed for fish and other complete animal feeds.

Author

Pećanac, Biljana, Janjić, Jelena, Đorđević, Vesna, Baltić, Tatjana, Stefanović, Srđan, Laudanović, Milica, and Ćirić, Jelena

Subjects

*ANIMAL feeds, *ANALYSIS of heavy metals, *LEAD, *TREND analysis, *SEMIMETALS, *ARSENIC, *HEAVY metals

Abstract

The aim of this research was to analyse the levels of toxic heavy metals (Mercury, Lead and Cadmium) and a toxic metalloid (Arsenic) in fish feed and animal feed from Bosnia and Herzegovina for the period from 2013 to 2018. Data from the National Veterinary Inspection Sector were provided for this study (n=438). The mean levels of As, Hg, Pb and Cd in all fish feed samples were 0.90±0.50 mg/kg, 0.02±0.05 mg/kg, 0.42±0.70 mg/kg and 0.16±0.11 mg/kg, respectively. During 2013-2018, the mean levels of As, Hg, Pb and Cd in animal feed (other complete feed) were 0.42±1.22 mg/kg, 0.01±0.02 mg/kg, 0.75±2.18 mg/kg and 0.10±0.12 mg/kg, respectively. In animal feeds sampled between 2013-2018, mean annual Pb levels increased the most among the four elements studied. In contrast, mean annual As, Hg and Cd levels in animal feeds continuously decreased during the study period. The mean annual Pb level in fish feed decreased, but continuous increases were observed in mean annual Hg and Cd levels during the study. The results show that the levels of toxic elements in fish feed and animal feed require attention and deserve a high priority monitoring program, as most feeds complied with the regulated maximum allowed concentrations of As, Hg, Pb and Cd in Bosnia and Herzegovina and in the European Union, but some did not. [ABSTRACT FROM AUTHOR]

Published

2024

213. Survey of Main Group Metals and Metalloids in Cancer Treatment.

Author

Kostova, Irena

Subjects

*PLATINUM, *SEMIMETALS, *METALS, *TRANSITION metal complexes, *CANCER treatment, *ORGANOMETALLIC compounds

Abstract

Cancer is one of the leading causes of human death among all major diseases. Metal-based complexes are considered as the most promising vital part in the existing arsenal of cytotoxic candidates used in cancer therapy and diagnostics. The efforts of many scientific groups resulted in the development of numerous metal-based compounds featuring different biologically active organic ligands in order to modulate their bioactivity. Along with the main representatives as potential therapeutic agents, such as the complexes Pt(II)/Pt(IV), Pd(II), Ru(II)/Ru(III), Ag(I), Au(I)/Au(III), Ti(IV), V(IV) and Ga(III), many other transition metal and lanthanide complexes possessing antiproliferative activity are widely discussed in the literature. However, such drugs remain outside the scope of this review. The main purpose of the current study is to review the potential activity of main group metal- and metalloid-based complexes against the most common cancer cell types, such as carcinomas (lung, liver, breast, kidney, gastric, colorectal, bladder, ovarian, cervical, prostate, etc.); sarcomas; blastomas; lymphomas; multiple myeloma; and melanoma. Overcoming the long disregard of organometallic compounds of metals and metalloids from the main groups, a growing number of emerging anticancer agents remarkably prove this field offers an extensive variety of new options for the design of innovative unexplored chemopharmaceutics. Moreover, some of the metal complexes and organometallic compounds from these elements can exhibit entirely different, specific modes of action and biological targets. Obviously, exploitation of their distinct properties deserves more attention. [ABSTRACT FROM AUTHOR]

Published

2024

214. Accumulation of phytotoxic metals and metalloids in vegetable continuum subjected to different irrigation streams: a threat towards nutritional security.

Author

WAQAS, Muhammad, ASHRAF, Kamran, MOHIUDDIN, Muhammad, ABBASI, Asim, SULTAN, Khawar, UMAR, Muhammad, ALI, Hayssam M., ABDELHAMID, Mohamed M. A., and ZAMAN, Qamar uz

Subjects

*SEMIMETALS, *ECOLOGICAL risk assessment, *IRRIGATION, *LUFFA aegyptiaca, *COPPER, *METALS, *URBAN agriculture, *URBAN soils

Abstract

The urban agro-ecosystem in developing countries plays a major role in uplifting the socioeconomic status of their inhabitants by confronting the challenges of improving food security and eradicating hunger. Food security and safety has become a serious global concern owing to accumulation of phytotoxic metals and metalloids in different food commodities subjected to different contaminated irrigation sources. The current study was undertaken to assess the concentrations of heavy metals and metalloid in ridge gourd (Luffa cylindrica L.), its planting soil medium and irrigation water sources used for crop production to determine the health risk. The results showed that the mean concentrations of different metals and metalloids in ground water samples i.e. Ni (0.14 mg L-1), Fe (1.29 mg L-1), Cu (0.10 mg L-1), Pb (0.55 mg L-1), As (0.10 mg L-1), Cr (2.38 mg L-1) and Cd (0.05 mg L-1) were over the permissible limits. Soil samples irrigated with ground water showed that concentrations of Cd (23.67 mg kg-1), Cr (26.66 mg kg-1) and As (45.97 mg kg-1) were above the permissible limits. Similarly, vegetable samples irrigated with ground water had a higher level of Cd (0.33 mg kg-1) than their prescribed safe limits. The bio-concentration factor ranged from 0.00 to 8.21 for all irrigation sources. The target hazard quotients (THQ) for Zn, Fe, and Cr were higher than the threshold value when ridge gourd was consumed, indicating a health concern. Similarly, hazard index values were 5.05, 28, 27, and 1.01, from groundwater, canal water, and sewage water, respectively. Target Cancer Risk (TCR) exposed Ni, Cr, Cd and As in canal water were sources of high cancer risk and Pb showed moderate cancer risk for the local community. These findings suggest that human intake of ridge gourd vegetable from the studied area may pose health hazards. Hence, frequent monitoring of different irrigation streams used in urban and semi-urban agriculture is strongly recommended to manage higher concentrations of phytotoxic metals and metalloids in crop produce and their associated health risks for humans. [ABSTRACT FROM AUTHOR]

Published

2024

215. Effect of Calcium and Fullerene Symmetry Spatial Minimization on Angiogenesis.

Author

Rivas, Manuel and Reina, Manuel

Subjects

*NEOVASCULARIZATION, *SYMMETRY, *GROUP extensions (Mathematics), *GRAPH theory, *CALCIUM, *SEMIMETALS

Abstract

The topological partition theory states that icosahedral group affine extensions (fullerenes symmetry) are the most effective way to energetically optimize the surface covering. In recent decades, potential applications of fullerene symmetry have emerged in the major fields of biology, like enzyme inhibition and antiviral therapy. This research suggests a novel perspective to interpret the underlying spatial organization of cell populations in tissues from the polyhedral graph theory. We adopted this theoretical framework to study HUVEC cell in vitro angiogenesis assays on Matrigel. This work underscores the importance of extracellular C a 2 + gradients, both from conditioned BJ and pretreated HUVEC cells, in angiogenesis fullerene-rule spatial minimization. [ABSTRACT FROM AUTHOR]

Published

2024

216. Dipolar Coupling at Interfaces of Ultrathin Semiconductors, Semimetals, Plasmonic Nanoparticles, and Molecules.

Author

Greten, Lara, Salzwedel, Robert, Katzer, Manuel, Mittenzwey, Henry, Christiansen, Dominik, Knorr, Andreas, and Selig, Malte

Subjects

*SEMICONDUCTOR junctions, *SEMIMETALS, *BLOCH equations, *PLASMONICS, *MAXWELL equations

Abstract

Recent progress in growth techniques has enabled the fabrication of stacks of transition metal dichalcogenide monolayers combined with different nanostructures ranging from other 2D layers over dye molecules to even plasmonic nanoparticles. Such structures promise to combine the optoelectric properties of the constituents allowing to design structures with desired properties. For all of these examples, a detailed knowledge of the coupling among different constituents is crucial. In this article, a unified description is presented based on Maxwell Bloch equations to describe dipolar interactions among different types of heterostructures. Exemplary, Förster‐type energy transfer from dye molecules to MoS2 monolayers, strong coupling at MoSe2–metal nanoparticle interfaces, Meitner–Auger‐like interlayer coupling in WSe2–graphene stacks, and relaxation processes of hot interlayer excitons in MoSe2–WSe2 heterobilayers are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

217. Mechanical, electronic, optical, piezoelectric and ferroic properties of strained graphene and other strained monolayers and multilayers: an update.

Author

Naumis, Gerardo G, Herrera, Saúl A, Poudel, Shiva P, Nakamura, Hiro, and Barraza-Lopez, Salvador

Subjects

*BORON nitride, *QUANTUM spin Hall effect, *SEMIMETALS, *FERROELECTRIC materials, *GRAPHENE, *MULTILAYERS, *MULTIFERROIC materials, *LEAD titanate

Abstract

This is an update of a previous review (Naumis et al 2017 Rep. Prog. Phys. 80 096501). Experimental and theoretical advances for straining graphene and other metallic, insulating, ferroelectric, ferroelastic, ferromagnetic and multiferroic 2D materials were considered. We surveyed (i) methods to induce valley and sublattice polarisation (P) in graphene, (ii) time-dependent strain and its impact on graphene's electronic properties, (iii) the role of local and global strain on superconductivity and other highly correlated and/or topological phases of graphene, (iv) inducing polarisation P on hexagonal boron nitride monolayers via strain, (v) modifying the optoelectronic properties of transition metal dichalcogenide monolayers through strain, (vi) ferroic 2D materials with intrinsic elastic (σ), electric (P) and magnetic (M) polarisation under strain, as well as incipient 2D multiferroics and (vii) moiré bilayers exhibiting flat electronic bands and exotic quantum phase diagrams, and other bilayer or few-layer systems exhibiting ferroic orders tunable by rotations and shear strain. The update features the experimental realisations of a tunable two-dimensional Quantum Spin Hall effect in germanene, of elemental 2D ferroelectric bismuth, and 2D multiferroic NiI2. The document was structured for a discussion of effects taking place in monolayers first, followed by discussions concerning bilayers and few-layers, and it represents an up-to-date overview of exciting and newest developments on the fast-paced field of 2D materials. [ABSTRACT FROM AUTHOR]

Published

2024

218. Ecotoxicity of heavy metals in soil around long-term e-waste recycling sites in Tema and Ashaiman areas of Ghana.

Author

Klutse, Charles Kofi, Quayson, Mustapha Abeiku, Forson, Amos, Nuveadenu, Christian, and Asare, Ebenezer Aquisman

Subjects

SOIL pollution, HEAVY metals, ELECTRONIC waste, SEMIMETALS, COPPER, ATOMIC absorption spectroscopy, SOIL depth

Abstract

The effect of e-waste recycling activities on the prevalence of metals (Cd, Cu, Hg, Ni, Pb, and Zn) and a metalloid (As) in soil was assessed for four e-waste sites in Ghana. Samples of top- and subsoil were collected from dismantling and burning sections, and the prevalence and the distribution of selected metals were determined using atomic absorption spectroscopy. The concentrations of the metals analyzed were above the background concentrations except for Cd, which was detected at a comparable level to the background levels. Levels of Cu and Pb increased with increasing soil depth. Cd, Zn, As, and Ni levels decreased with increasing soil depth. However, Hg levels showed no recognizable trend in its distribution relative to soil depth. The pollution indices evaluated revealed deterioration of the soil quality at the e-waste sites. Pollution indices are used to categorize soil pollution levels based on cut-off values. Geo-accumulation indices suggested that the soil was very highly polluted with Pb, highly polluted with Cu, and moderately polluted with As, Hg, Cd, and Zn. The enrichment factor values indicated that soil from the studied sites was very highly enriched with Pb (i.e., EF of 9.60 to 63.14; median being 28.51) and significantly enriched with Cu and Hg (i.e., EF of 3.09 to 21.86; median 7.72 for Cu and EF of 1.48 to 25.5; median 10.57 for Hg). The contamination factor analysis revealed very high contamination of soils with Pb. The metals Cu, Zn, As, Ni, Cd, and Hg exhibited moderate to considerable contamination. This study is part of the continuous effort to assist policymakers with scientific information needed to influence policy decisions on environmental management in Ghana. [ABSTRACT FROM AUTHOR]

Published

2024

219. Management of a contaminated mine soil: Effect of soil water content on antimony and arsenic immobilisation by iron-based amendments and biochar composites.

Author

Zarzsevszkij, Szimona, Vítková, Martina, Pospíšková, Kristýna Zelená, Kolařík, Jan, Hudcová, Barbora Böserle, and Jurkovič, Ľubomír

Subjects

ARSENIC in water, SOIL moisture, MINE soils, SOIL pollution, ANTIMONY, SEMIMETALS, BIOCHAR

Abstract

Alteration of wet and dry periods affects soil geochemical properties that drive contaminant availability and mobility. Consequently, the efficiency of soil remediation may vary, and thus soil management needs to consider these variations. This study reveals the effect of soil moisture manipulation on the behaviour of the toxic metalloids antimony (Sb) and arsenic (As) and the immobilisation efficiency of nanoscale zero-valent iron (nZVI), biochar (BC) and BC modified by iron or iron/ferrous sulphide (nZVI-BC and Fe/FeS-BC). Soil samples from an abandoned Sb mining site were tested under laboratory conditions. Two distinct (organic and mineral) soil layers were incubated with each of the amendments (2% w/w application rate) at 50% and 100% water holding capacity (WHC) of the soils for 10 weeks, and subsequently extracted with demineralised water and rainwater. The immobilisation efficiency of the tested amendments was significantly influenced by the different soil moisture regimes and type of contaminant. Sorption onto secondary Fe minerals was the dominant Sb/As immobilizing mechanism. The iron-based amendments showed up to 97% efficiency for Sb and up to 96% for As. However, Sb/As release was generally higher at 100% WHC and in the rainwater extracts compared to the other conditions, indicating that heavy rainfall and flooding of soils in-situ may increase contaminant availability and mobility. In the organic layer, enhanced formation and leaching of metalloid-DOC complexes and sorption competition of the negatively charged Sb/As species and DOC can be expected. Also, reductive dissolution of Sb or As-bearing metal oxides could lead to the observed higher Sb/As release under flooded conditions, resulting in exacerbated environmental and health risks. Therefore, it is crucial to (1) improve the sorption characteristics of the tested amendments and/or develop other effective amendments for Sb/As immobilisation in different water regimes in soil; (2) test the amendments under real field conditions to evaluate the long term wet/dry exposure; and (3) develop proper risk assessment and soil remediation strategy for the study area and similar sites. [ABSTRACT FROM AUTHOR]

Published

2024

220. Reply to Comment by Terence McCarthy and Marc Humphries on "Highly Contrasted Geochemical Pattern in Sediments of the Okavango Delta, Botswana Driven by Dust Supply, Hydrological Heritage and Biogeochemical Reactions".

Author

Jolivet, M., Dauteuil, O., Dia, A., Davranche, M., Pierson‐Wickmann, A.‐C., Barrier, L., Murray‐Hudson, M., Mazrui, N., Marsac, R., Cheng, Feng, and Li, Xiangzhong

Subjects

GEOCHEMISTRY, ALLUVIAL fans, SEDIMENTS, WATER chemistry, SEMIMETALS, MINERALOGY, SAND dunes, MEANDERING rivers, DUST

Abstract

In southern Africa, the Okavango Delta is a large alluvial fan sustaining a unique wetlands ecosystem in the heart of the Kalahari desert. The Delta is fed by an annual flood that brings water from the Angolan plateaus to the north, down to the Okavango region. The fan is characterized by vegetated, permanent or seasonal floodplains, dotted with thousands of sandy islands of various origin (inverted paleo‐channels, paleo‐dunes, meander bars, etc). On at least some of these islands, shallow groundwater is characterized by a high pH (>8) and a high concentration of metals and metalloids, making it naturally toxic. In the 1990s, McCarthy and co‐workers explain the chemistry of that water through an evapotranspiration model, the flood‐water being pumped by the vegetation toward the center of the islands and progressively enriched in elements by evapotranspiration. This model has been widely applied to all islands in the Okavango, not considering their individual specificities nor that of the surrounding floodplain. Our work, based on a multidisciplinary approach including sedimentology, mineralogy and geochemistry, and discussed by McCarthy and Humphries, questions the established model suggesting that the alkaline water cannot derive from simple concentration of the floodwater. Key Points: The chemical composition of the alkaline groundwater cannot reflect simple evaporation processesThe variable origin of islands in the Okavango Delta makes for variable bio‐geochemical processesThe hydro‐geochemical functioning of the Delta will only be understood through interdisciplinary studies [ABSTRACT FROM AUTHOR]

Published

2024

221. Spatial–temporal variations of metals and arsenic in sediments from the Doce River after the Fundão Dam rupture and their bioaccumulation in Corbicula fluminea.

Author

de Figueiredo Eufrasio Pauly, Guacira, Cruz, Ana C. F., Trevizani, Tailisi H., Mi Kim, Bianca S., Perina, Fernando C., Yamamoto, Flávia Y., Figueira, Rubens C. L., and de Souza Abessa, Denis M.

Subjects

CORBICULA fluminea, DAM failures, BIOACCUMULATION, TRACE elements in water, SEDIMENTS, COPPER, SEMIMETALS

Abstract

The rupture of the Fundão dam in Brazil released tons of mining tailings into the Doce River Basin (DRB). This investigation aimed to determine the bioaccumulation of metals in soft tissues of the bivalve Corbicula fluminea exposed to sediments collected in the DRB in four periods (just after, 1, 3, and 3.5 years after the dam rupture). In the exposure bioassays, the concentrations of Al, As, Cd, Cr, Cu, Fe, Mn, Ni, Pb, and Zn in sediments and bivalve soft tissues were quantified. The concentration of some elements (As, Cd, Mn, and Al) in sediments exceeded the federal limits or regional backgrounds at some sampling sites, but their concentrations tended to decrease over time. However, higher concentrations of many elements were detected in the winter of 2019. Several elements were detected in C. fluminea soft tissues, but the bioaccumulation factors were generally low or not related to those elements associated with the ore tailings, evidencing that the bioavailability of metals to bivalves, in laboratory conditions, was limited. Integr Environ Assess Manag 2024;20:87–98. © 2023 SETAC Key Points: The bivalve Corbicula fluminea exposed to sediments collected in the Rio Doce after the Fundão dam failure generally showed low bioaccumulation of metals, as evidenced by the low bioaccumulation factors; some bioaccumulated elements, such as Cu, were not related to the ore tailings.The concentrations of metals and As were high after the dam rupture, and the levels of As, Cd, Mn, and Al in sediments exceeded the federal limits or regional backgrounds at some sampling sites, but their levels tended to decrease over time.The concentrations of metals and As in soft tissues of C. fluminea did not correlate with the respective levels in the sediments, suggesting limited bioavailability of metals or the organisms' ability to cope with metals and metalloids. [ABSTRACT FROM AUTHOR]

Published

2024

222. In vitro chronic phytotoxicity of heavy metals and metalloids to Lepidium sativum (garden cress).

Author

Bożym, Marta and Rybak, Justyna

Subjects

HEAVY metals, SEMIMETALS, PHYTOTOXICITY, LEPIDIUM, HEAVY metal toxicology, COPPER

Abstract

The paper presents the results of studies on the influence of selected concentrations (10–100 mg L−1) of heavy metals (Cd, Co, Cr, Cu, Fe, Hg, Mn, Mo, Ni, Pb, Zn) and metalloids (As, Sb, Se) on the germination and root elongation of garden cress (Lepidium sativum L). There are not many studies on phytotoxicity of heavy metals and metalloids with the complex use of single plant species so far. On the basis of the germination index (GI) and inhibition concentration IC50, the following order of phytotoxicity of the tested elements was determined: Se> As> Hg> Sb > Mo > Cd> Co > Zn > Ni. The other metals showed no phytotoxicity or even stimulating effect. In our study the stimulating effect of the majority of Pb concentrations and the lowest concentrations of Cd and Hg has been revealed. These metals do not play any role in living organisms, however some authors confirm their stimulating effect on plants at low concentrations. Toxic concentration of metals and metalloids calculated as IC50 are lower than the concentration calculated as GI (not phytotoxic). It is well known that seeds are more independent and tolerant to toxicants when they contain reserve substances which are used during the germination period. On the basis of conducted research, high tolerance of L. sativum to heavy metals and metalloids was found, which may indicate its usefulness for phytotoxicity assessment of leachate from contaminated soil or waste (e.g. foundry waste) and its application for bioremediation to manage heavy metal pollution of soils or foundry wastes containing heavy metals and metalloids. The understanding of heavy metal and metalloids toxicity will facilitate bioremediation. Highlights: Lepidium sativum shows high tolerance to the aqueous solution of Pb(NO3)2 Cr (3+) and (6+) stimulated the germination and roots elongation of L. sativum L. sativum is sensitive to the influence of an aqueous SeO2 solution Low concentrations of Cd and Hg may have a stimulating effect on L. sativum [ABSTRACT FROM AUTHOR]

Published

2024

223. Single Crystal Growth and Nano-Structure Study in a Topological Dirac Metal, CoTe 2-δ.

Author

Chen, Lei, Zhao, Weiyao, and Zheng, Ren-Kui

Subjects

SINGLE crystals, CRYSTAL growth, X-ray powder diffraction, CARRIER density, SEMIMETALS, SCANNING electron microscopy

Abstract

A single crystal of a topological material, CoTe2-δ, has been grown via the chemical vapor transport method for a structural and electronic transport study. Single-crystal X-ray diffraction, powder X-ray diffraction, and high-resolution scanning electron microscope measurements confirm the high quality of the as-grown single crystals. In a high-resolution scanning electron microscopy study, a clear layered feature of the trigonal CoTe2-δ crystal was observed. Fractal features and mosaic-type nanostructures were observed on the as-grown surface and cleaved surface, respectively. The trigonal CoTe2-δ demonstrates a metallic ground state in transport measurements, with a typical carrier's concentration in a 1021 cm−3 magnitude and a residual resistivity ratio of 1.6. Below 10 K, trigonal CoTe2-δ contains quite complicated magnetoresistance behavior as a result of the competing effect between Dirac states and possible spin fluctuations. [ABSTRACT FROM AUTHOR]

Published

2024

224. Topological Mott transistor with high current density based on hydrogen-terminated diamond.

Author

Kim, Hyun-Tak and Qazilbash, M. M.

Subjects

*FIELD-effect transistors, *P-type semiconductors, *METAL-insulator transitions, *POWER transistors, *SEMIMETALS, *TOPOLOGICAL insulators, *TRANSISTORS

Abstract

The mechanism for the high drain-source current density, IDS≈ 1.3 A/mm, measured in a field effect transistor based on hydrogen-terminated diamond, is explained by the Mott insulator-metal transition (IMT). A local metal phase satisfying the Mott criterion for an IMT occurs in a p-type semiconductor formed by coupling between hydrogen and carbon on the surface of diamond. The local Mott metal phase on the surface of a p-type semiconductor leads to high carrier and current densities, and the transistor utilizing this effect is construed as a Mott power transistor. A channel material consisting of local Mott metal regions on the surface of a p-type semiconductor, such as hydrogen-terminated diamond, may be considered an inhomogeneous, topological Mott insulator. [ABSTRACT FROM AUTHOR]

Published

2023

225. Superconductivity in a ferroelectric-like topological semimetal SrAuBi.

Author

Takahashi, Hidefumi, Sasaki, Tomohiro, Nakano, Akitoshi, Akiba, Kazuto, Takahashi, Masayuki, Mayo, Alex H., Onose, Masaho, Kobayashi, Tatsuo C., and Ishiwata, Shintaro

Subjects

SEMIMETALS, SUPERCONDUCTIVITY, SPIN-orbit interactions, FERMI level, SINGLE crystals, SURFACE states

Abstract

Given the rarity of metallic systems that exhibit ferroelectric-like transitions, it is apparently challenging to find a system that simultaneously possesses superconductivity and ferroelectric-like structural instability. Here, we report the observation of superconductivity at 2.4 K in a layered semimetal SrAuBi characterized by strong spin–orbit coupling (SOC) and ferroelectric-like lattice distortion. Single crystals of SrAuBi have been successfully synthesized and found to show a polar-nonpolar structure transition at 214 K, which is associated with the buckling of Au-Bi honeycomb lattice. On the basis of the band calculations considering SOC, we found significant Rashba-type spin splitting and symmetry-protected multiple Dirac points near the Fermi level. We believe that this discovery opens up new possibilities of pursuing exotic superconducting states associated with the semimetallic band structure without space inversion symmetry and the topological surface state with the strong SOC. [ABSTRACT FROM AUTHOR]

Published

2023

226. The role of epigenetic and epitranscriptomic modifications in plants exposed to non-essential metals.

Author

Chmielowska-Bąk, Jagna, Searle, Iain Robert, Wakai, Theophilus Nang, and Arasimowicz-Jelonek, Magdalena

Subjects

EPIGENETICS, METALS, GENE expression, SOIL pollution, CROP yields, SEMIMETALS

Abstract

Contamination of the soil with non-essential metals and metalloids is a serious problem in many regions of the world. These non-essential metals and metalloids are toxic to all organisms impacting crop yields and human health. Crop plants exposed to high concentrations of these metals leads to perturbed mineral homeostasis, decreased photosynthesis efficiency, inhibited cell division, oxidative stress, genotoxic effects and subsequently hampered growth. Plants can activate epigenetic and epitranscriptomic mechanisms to maintain cellular and organism homeostasis. Epigenetic modifications include changes in the patterns of cytosine and adenine DNA base modifications, changes in cellular non-coding RNAs, and remodeling histone variants and covalent histone tail modifications. Some of these epigenetic changes have been shown to be longlasting and may therefore contribute to stress memory and modulated stress tolerance in the progeny. In the emerging field of epitranscriptomics, defined as chemical, covalent modifications of ribonucleotides in cellular transcripts, epitranscriptomic modifications are postulated as more rapid modulators of gene expression. Although significant progress has been made in understanding the plant’s epigenetic changes in response to biotic and abiotic stresses, a comprehensive review of the plant’s epigenetic responses to metals is lacking. While the role of epitranscriptomics during plant developmental processes and stress responses are emerging, epitranscriptomic modifications in response to metals has not been reviewed. This article describes the impact of non-essential metals and metalloids (Cd, Pb, Hg, Al and As) on global and site-specific DNA methylation, histone tail modifications and epitranscriptomic modifications in plants. [ABSTRACT FROM AUTHOR]

Published

2023

227. Evidence of compensated semimetal with electronic correlations at charge neutrality of twisted double bilayer graphene.

Author

Ghosh, Ayan, Chakraborty, Souvik, Ghorai, Unmesh, Paul, Arup Kumar, Watanabe, K., Taniguchi, T., Sensarma, Rajdeep, and Das, Anindya

Subjects

*GRAPHENE, *SEMIMETALS, *NEUTRALITY, *DIGITAL signatures, *MAGNETIC fields, *THERMOELECTRIC power

Abstract

Recently, magic-angle twisted bilayer graphene (MATBLG) has emerged with various interaction-driven novel quantum phases at the commensurate fillings of the moiré superlattice, while the charge neutrality point (CNP) remains mostly a trivial insulator. Here, we show an emerging phase of compensated semimetallicity at the CNP of twisted double bilayer graphene (TDBLG), a close cousin of MATBLG, with signatures of electronic correlation. Using electrical and thermal transport, we find two orders of magnitude enhancement of the thermopower at magnetic fields much smaller than the extreme quantum limit, accompanied by large magnetoresistance (~ 2500%) at CNP, providing strong experimental evidence of compensated semimetallicity at CNP of TDBLG. Moreover, at low temperatures, we observe unusual sublinear temperature dependence of resistance. A recent theory1 predicts the formation of an excitonic metal near CNP, where small electron and hole pockets co-exist. We understand this sublinear temperature dependence in terms of critical fluctuations in this theory. Twisted double bilayer graphene has recently become a popular system to investigate strongly correlated phenomenon where the twist angle is a key degree of freedom. Here, the authors investigate thermopower in twisted double bilayer graphene finding a large enhancement of thermopower and magnetoresistance within a small magnetic field near the charge neutrality point, indicating a compensated semimetallic state. [ABSTRACT FROM AUTHOR]

Published

2023

228. Asymmetric Allenylation of N -Acylhydrazones with Propargyltrichlorosilane Catalyzed by Helical Chiral 2,2′-Bipyridine N -Monoxide.

Author

Xu, Changgong, Nader, Phillip, Xavier, Jonathan, and Takenaka, Norito

Subjects

*ORGANIC synthesis, *LEWIS bases, *ASYMMETRIC synthesis, *SEMIMETALS, *CATALYSIS, *NUCLEOPHILES

Abstract

This article discusses the development of a new method for the asymmetric allenylation of N-acylhydrazones using propargyltrichlorosilane as a reagent. The authors highlight the importance of chiral amines in organic chemistry and the synthetic versatility of α-allenylamines. They also discuss the limited number of reported catalytic methods for the allenylation of N-acylhydrazones and the regioselectivity challenges associated with preformed metal/metalloid nucleophiles. The authors present their findings on the regiospecific asymmetric allenylation reaction using propargyltrichlorosilane and Lewis base catalysis, and they suggest that this method has potential for further development in asymmetric catalysis. [Extracted from the article]

Published

2023

229. High-Mobility Topological Semimetals as Novel Materials for Huge Magnetoresistance Effect and New Type of Quantum Hall Effect.

Author

Zivieri, Roberto, Lumetti, Stefano, and Létang, Jérémy

Subjects

*QUANTUM Hall effect, *SEMIMETALS, *MAGNETORESISTANCE, *CHARGE carrier mobility, *MATERIALS science

Abstract

The quantitative description of electrical and magnetotransport properties of solid-state materials has been a remarkable challenge in materials science over recent decades. Recently, the discovery of a novel class of materials—the topological semimetals—has led to a growing interest in the full understanding of their magnetotransport properties. In this review, the strong interplay among topology, band structure, and carrier mobility in recently discovered high carrier mobility topological semimetals is discussed and their effect on their magnetotransport properties is outlined. Their large magnetoresistance effect, especially in the Hall transverse configuration, and a new version of a three-dimensional quantum Hall effect observed in high-mobility Weyl and Dirac semimetals are reviewed. The possibility of designing novel quantum sensors and devices based on solid-state semimetals is also examined. [ABSTRACT FROM AUTHOR]

Published

2023

230. Indexing methods and chemometric analysis of selected metals and metalloids for drinking water quality assessment in Upper Silesia region, Poland.

Author

Pecyna-Utylska, Paulina, Muntean, Edward, Kernert, Joanna, and Michalski, Rajmund

Subjects

*DRINKING water quality, *SEMIMETALS, *HEAVY metal toxicology, *METAL analysis, *CHEMOMETRICS, *PRINCIPAL components analysis

Abstract

The research focused on the determination of selected metals in tap water from Upper Silesia region (Poland) and the assessment of risk for consumers. The heavy metal pollution index and metal index were used to characterise the potential risk of heavy metals in drinking water. ICP-MS and ICP-OES have been used to measure the concentrations of Co, Mn, Cu, Ni, Pb, As, Zn and Sr. Chemometric analysis of the resulted data was accomplished using principal component analysis and cluster analysis, emphasising both similarities between the composition of the analysed samples and outliers. It was suggested that chemometric analysis can be used as a decision tool for necessary corrective action in the water distribution network, since it emphasises in a fast and intuitive way the samples with unusual chemical composition for a given context. To the best of our knowledge, such research in this area has not yet been carried out. [ABSTRACT FROM AUTHOR]

Published

2023

231. Acoustic real second-order nodal-loop semimetal and non-Hermitian modulation.

Author

Yue, Zichong, Zhang, Zhiwang, Cheng, Ying, Liu, Xiaojun, and Christensen, Johan

Subjects

*SEMIMETALS, *GAUGE field theory, *SURFACE states, *TOPOLOGICAL property, *SYMMETRY

Abstract

The unique features of spinless time-reversal symmetry and tunable ℤ 2 gauge fields in artificial systems facilitate the emergence of topological properties in the landscape, such as the recently explored Möbius-twisted phase and real second-order nodal-loop semimetals. However, these properties have predominantly been proposed only in theoretical frameworks. In this study, we present a cunningly designed blueprint for realizing an acoustic real second-order nodal-loop semimetal through the incorporation of projective translation symmetry into a three-dimensional stacked acoustic graphitic lattice. Additionally, we introduce non-Hermitian modulation to the topologically protected propagation of degenerate drumhead surface and hinge states, which depend on the specific on-site gain and loss textures. It should be emphasized that this demonstration can be extended to other classical wave systems, thereby potentially opening up opportunities for the design of functional topological devices. [ABSTRACT FROM AUTHOR]

Published

2023

232. Spin selectivity in elemental tellurium and other chiral materials.

Author

Sławińska, Jagoda

Subjects

*TELLURIUM, *ELECTRIC currents, *ORBITAL velocity, *SEMIMETALS, *PHYSICS

Abstract

The phenomenon of chirality-induced spin selectivity (CISS), where chiral organic molecules enable the selective transmission of electrons spin-polarized along the direction of electric current, has been studied for nearly two decades. Despite its technological relevance, CISS is not fully understood. Recent studies have expanded the concept of spin selectivity to chiral inorganic crystals, offering promise for magnet-free spintronics and other applications. This Perspective reviews recent developments on spin selectivity in non-magnetic solid-state materials, whereby chirality-dependent charge-to-spin conversion is responsible for transforming electric currents into spin signals, and spin transport within devices. Notably, chiral systems often outperform non-chiral ones in terms of conversion efficiency and facilitate long-range spin transport, which makes them relevant for both fundamental and applied physics. After examining the archetypal example of the chiral crystal, elemental tellurium, and the studies of spin selectivity in Weyl semimetals, we discuss its origin in terms of the unconventional (collinear) Rashba–Edelstein effect. We also explore key factors affecting the conversion efficiency and robustness of spin transport, focusing on persistent spin textures and their influence on spin lifetime. In addition, we discuss the potential impact of band velocities and the role of orbital contributions, as well as the differences associated with reduced dimensionality, providing a roadmap for guiding future theoretical, experimental, and applied studies. [ABSTRACT FROM AUTHOR]

Published

2023

233. Monitoring metal patterns from urban and agrarian sites using the bumblebee Bombus terrestris as a bioindicator.

Author

Breidenbach, Leonie Rabea, Benner, Lena, Roß-Nickoll, Martina, Linnemann, Volker, and Schäffer, Andreas

Subjects

BOMBUS terrestris, BUMBLEBEES, LIFE cycles (Biology), COPPER, SPRING, SEMIMETALS, METALS

Abstract

Honeybees are well-established bioindicators for different types of pollutants. This study aims to establish another species of the Apidae family as a bioindicator, with a distinct behaviour and life cycle. The bumblebee Bombus terrestris was used as a bioindicator for 12 metals. Bumblebee hives were placed at sampling sites in and around the city of Aachen, Germany, and metal concentrations were assessed using ICP-MS. Metal concentrations were compared to those found in honeybees described in the literature. Spatial differences in metal patterns were investigated by comparing two land-use types: urban and agrarian. Seasonal differences were compared by taking samples in spring and summer. All analysed metals were detected above the detection limit and within or even above the concentration range found in honeybees. Significant spatial differences were found for the metalloid B and the metal Cd with higher concentrations at the agrarian sites than the urban sites. Significant seasonal differences were found for 8 metals: Fe, Zn, Cu, Ni, Cd, and As concentrations were higher in summer than in spring, while B and V concentrations were higher in spring. To categorise the results, we applied the honeybee contamination index (HCI) and adapted it to bumblebee purposes. According to the HCI, only one agrarian site showed a high contamination level. This study shows that bumblebees are suitable bioindicators for metals. The obtained data can serve as a first baseline in the establishment of additional monitoring studies or risk assessments. [ABSTRACT FROM AUTHOR]

Published

2023

234. Change in the Normal Spectral Emissivity during Melting of Elements.

Author

Kosenkov, D. V. and Sagadeev, V. V.

Subjects

*ELECTROMAGNETIC theory, *MELTING, *EMISSIVITY, *SEMIMETALS

Abstract

An experimental and computational study of the normal spectral emissivity during melting of various metals was carried out, the installation scheme and the method of conducting experiments were given. The possibilities of the electromagnetic theory for describing the dependence of the behavior of the normal spectral emissivity of metals and semimetals are evaluated. [ABSTRACT FROM AUTHOR]

Published

2023

235. Assessment of the Concentration of Metals and Metalloids in the Snow Cover at Oil Production Sites in the Middle Ob Region.

Author

Moskovchenko, D. V., Pozhitkov, R. Yu., and Tigeev, A. A.

Subjects

SEMIMETALS, INDUSTRIAL concentration, METALS, HEAVY metals, OIL fields, PETROLEUM, SNOW cover

Abstract

The level of snow cover pollution by potentially toxic metals and metalloids is estimated for the area of the Vatinskoe oil field (Khanty-Mansiysk Autonomous Okrug–Yugra). Studies of the filtrate of melted snow and solid-phase precipitation (particles larger than 0.45 µm) showed an increase in Ni and Cr concentrations, suspended fraction, as well as Zn due to the traffic load. The level of pollution increases in areas with a higher concentration of industrial objects. [ABSTRACT FROM AUTHOR]

Published

2023

236. Achieving a Large Energy Gap in Bi(110) Atomically Thin Films.

Author

Yuan, Qing, Li, Yafei, Guo, Deping, Lou, Cancan, Cui, Xingxia, Mei, Guangqiang, Jiao, Chengxiang, Huang, Kai, Hou, Xuefeng, Ji, Wei, Cao, Limin, and Feng, Min

Subjects

*THIN films, *BAND gaps, *METAL-insulator transitions, *TRANSITION metals, *SEMIMETALS, *CONDENSED matter, *ATOMIC force microscopy, *SCANNING tunneling microscopy

Abstract

Metal–insulator transition has long been one of the key subjects in condensed matter systems. Herein, the emergence of a large energy gap (Eg, 0.8–1.0 eV) in Bi(110) two‐atomic‐layer nanoribbons grown on a SnSe(001) substrate is reported, which normally has an intrinsic semimetal‐like characteristic. The existence of this abnormally large Eg in Bi(110) is, however, determined by Bi coverage. When coverage is above ≈64 ± 2%, Eg vanishes, and instead, a Bi(110) semimetal‐like phase appears through a singular insulator–metal transition. Measurements using qPlus atomic force microscopy demonstrate that either insulating or semimetal‐like Bi(110) possesses a distorted black phosphorous structure with noticeable atomic buckling. Density function theory fully reproduces the semimetal‐like Bi(110) on SnSe(001). However, none of the insulating phases with this large Eg could be traced. Although the underlying mechanism of the large Eg and the insulator‐metal transition requires further exploration, experiments demonstrate that similar results can be achieved for Bi grown on SnS, the structural analog of SnSe, exhibiting an even larger Eg of ≈2.3 eV. The experimental strategy may be generalized to utilization of group‐IV monochalcogenides to create Bi(110) nanostructures with properties unachievable on other surfaces, providing an intriguing platform for exploring the interesting quantum electronic phases. [ABSTRACT FROM AUTHOR]

Published

2023

237. Reentrant Proximity-Induced Superconductivity for GeTe Semimetal.

Author

Esin, V. D., Kazmin, D. Yu., Barash, Yu. S., Timonina, A. V., Kolesnikov, N. N., and Deviatov, E. V.

Subjects

*SUPERCONDUCTIVITY, *SEMIMETALS, *FERMI surfaces, *FINITE fields, *SPIN-orbit interactions, *SPIN polarization, *JOSEPHSON junctions

Abstract

We experimentally investigate charge transport in In–GeTe and In–GeTe–In proximity devices, which are formed as junctions between superconducting indium leads and thick single crystal flakes of α-GeTe topological semimetal. We observe nonmonotonic effects of the applied external magnetic field, including reentrant superconductivity in In–GeTe–In Josephson junctions: supercurrent reappears at some finite magnetic field. For a single In–GeTe Andreev junction, the superconducting gap is partially suppressed in zero magnetic field, while the gap is increased nearly to the bulk value for some finite field before its full suppression. We discuss possible reasons for the results obtained, taking into account spin polarization of Fermi arc surface states in topological semimetal -GeTe with a strong spin–orbit coupling. In particular, the zero-field surface state spin polarization partially suppresses the superconductivity, while it is recovered due to the modified spin-split surface state configuration in finite fields. As an alternative possible scenario, the transition into the Fulde–Ferrell–Larkin–Ovchinnikov state is discussed. However, the role of strong spin–orbit coupling in forming the nonmonotonic behavior has not been analyzed for heterostructures in the Fulde–Ferrell–Larkin–Ovchinnikov state, which is crucial for junctions involving GeTe topological semimetal. [ABSTRACT FROM AUTHOR]

Published

2023

238. Nodal Line Topological Superconducting State in Quasi-One-Dimensional A2Cr3As3 (A = K, Rb, Cs) Superconductors.

Author

Wang, M., LiMing, W., and Zhou, T.

Subjects

*SUPERCONDUCTORS, *ALKALI metals, *SEMIMETALS, *DENSITY of states, *TOPOLOGICAL property, *SHEAR waves

Abstract

In this theoretical study, we examine the topological properties of the recently discovered A2Cr3As3 (A = K, Rb, Cs) superconductors. In the superconducting state, characterized by a typical -wave pairing symmetry, a line nodal exists in the plane, confirming the system as a topological nodal-line superconductor. When considering an open boundary along the -direction, flat surface bands emerge. In contrast, when an s-wave pairing symmetry is considered, the system becomes fully gapped and topologically trivial. Additionally, we investigate the spectral function and the local density of states, which may be employed to experimentally detect the topological features. [ABSTRACT FROM AUTHOR]

Published

2023

239. Orbital Hybridization in Kagome Metal GdV6Sn6 Revealed by Resonant ARPES.

Author

Lv, Zheng-Yang, Jiang, Qi, Wang, Jia-Meng, Qian, Hao-Ji, Wang, De-Yang, Qiao, Shan, and Ye, Mao

Subjects

*ORBITAL hybridization, *MATERIALS at low temperatures, *PHOTOELECTRON spectroscopy, *DENSITY functional theory, *VALENCE bands, *SEMIMETALS, *VANADIUM

Abstract

Novel quantum materials have broad application prospects in spintronic devices and low‐power‐consumption devices. The kagome‐type lattice has special corner‐sharing triangle geometry, providing a rich platform to investigate the relationship of novel correlated topological states, geometry, and strong electron interactions. However, the orbital hybridization in the presence of flat band that originated from the electron localization due to the unique kagome lattice configuration is still unclear. Resonant‐angle‐resolved photoemission spectroscopy is utilized to study the valence band structures of a new vanadium‐based kagome material GdV6Sn6, combined with density functional theory calculation. Herein, a significant hybridization between V 3d and Sn 5p electrons, which paves the way to understand the formation of long‐range magnetic ordering of GdV6Sn6 and other kagome materials at low temperature, is unambiguously revealed in the results. [ABSTRACT FROM AUTHOR]

Published

2023

240. MA2Z4 family heterostructures: Promises and prospects.

Author

Tho, Che Chen, Guo, San-Dong, Liang, Shi-Jun, Ong, Wee Liat, Lau, Chit Siong, Cao, Liemao, Wang, Guangzhao, and Ang, Yee Sin

Subjects

*TRANSITION metal nitrides, *HETEROSTRUCTURES, *SILICON nitride, *ENERGY conversion, *TRANSITION metals, *SEMIMETALS, *ALKALINE earth metals

Abstract

Recent experimental synthesis of ambient-stable MoSi 2 N 4 monolayer has garnered enormous research interest. The intercalation morphology of MoSi 2 N 4 —composed of a transition metal nitride (Mo-N) inner sub-monolayer sandwiched by two silicon nitride (Si-N) outer sub-monolayers—has motivated the computational discovery of an expansive family of synthetic MA 2 Z 4 monolayers with no bulk (3D) material counterpart (where M = transition metals or alkaline earth metals; A = Si, Ge; and N = N, P, As). MA 2 Z 4 monolayers exhibit interesting electronic, magnetic, optical, spintronic, valleytronic, and topological properties, making them a compelling material platform for next-generation device technologies. Furthermore, heterostructure engineering enormously expands the opportunities of MA 2 Z 4 . In this review, we summarize the recent rapid progress in the computational design of MA 2 Z 4 -based heterostructures based on first-principle density functional theory (DFT) simulations—a central work horse widely used to understand the physics, chemistry, and general design rules for specific targeted functions. We systematically classify the MA 2 Z 4 -based heterostructures based on their contact types, and review their physical properties, with a focus on their performances in electronics, optoelectronics, and energy conversion applications. We review the performance and promises of MA 2 Z 4 -based heterostructures for device applications that include electrical contacts, transistors, spintronic devices, photodetectors, solar cells, and photocatalytic water splitting. We present several prospects for the computational design of MA 2 Z 4 -based heterostructures, which hold the potential to guide the next phase of exploration, moving beyond the initial "gold rush" of MA 2 Z 4 research. This review unveils the vast device application potential of MA 2 Z 4 -based heterostructures and paves a roadmap for the future development of MA 2 Z 4 -based functional heterostructures and devices. [ABSTRACT FROM AUTHOR]

Published

2023

241. Spatial and temporal variations in the environmental and biological characteristics of the Turyanchay River basin, Azerbaijan.

Author

Aliyev, Saleh, Farzali, Shabnam, and Dürrani, Ömerhan

Subjects

*BIOLOGICAL variation, *WATERSHEDS, *SPATIAL variation, *BIOCHEMICAL oxygen demand, *COPPER, *SEMIMETALS, *CHEMICAL oxygen demand

Abstract

This is the first comprehensive examination of the Turyanchay River in Azerbaijan, focusing on water quality (WQ), contamination, and biodiversity at four different locations: Gabala, Agdash, Udjar and Zardab. The study analysed nutrient (nitrate, ammonium, phosphate) and metal/metalloid (Pb, Cu, Ni, Zn, Mn, Cr, Cd, Fe and Al) contamination levels, as well as the diversity of macrozoobenthos in the river, birds and vegetation. The chemical and biological oxygen demands (COD and BOD), including WQ index (WQI) were also determined for the river. The results showed no significant difference in the levels of nutrients, metal/metalloid, COD, BOD, WQI and macrozoobenthos diversity across different locations (p >.05). However, they revealed temporal fluctuations, with their highest levels being recorded during the warmer months (July and August) and the lowest during the colder months (March and November). The estimated WQI, ranging from 19.6 to 43.6, indicated that the water in the Turyanchay River is safe for household and consumption purposes. Up to 83 species of macrozoobenthos were identified, with Hydropsychidae and Chironomidae showing the highest species richness, followed by Coenagrionidae, Psychomyiidae, Ceratopogonidae, Baetidae, Naididae and Gammaridae. Eighteen bird species, consisting of 11 terrestrial and 7 aquatic birds, were recorded, with eight of these species belonging to the Order Charadriiformes. A total of 42 different plant species belonging to 17 families were identified in the Turyanchay River basin, with Fabaceae being the most widely distributed, followed by Asteraceae and Typhaceae. This study provides important baseline data for the Turyanchay River, offering insights into its freshwater environment and biodiversity, and should support future monitoring efforts. [ABSTRACT FROM AUTHOR]

Published

2023

242. Electric field-dependent photoexcited spin-polarized electron transport in Bi2Se3 topological insulator.

Author

Hua, Chen-Wei and Huang, Jian-Jang

Subjects

*ELECTRON transport, *TOPOLOGICAL insulators, *PHOTOCONDUCTIVITY, *ELECTRON transitions, *ELECTRON spin states, *INDIUM gallium zinc oxide, *SEMIMETALS, *ELECTRIC fields

Abstract

Three-dimensional (3D) topological insulators (TIs) exhibit spin-polarized surface states in which the spin of electrons is locked to their momentum. The helical surface states can be explored from circularly polarized light-induced spin photocurrent, a phenomenon called circular photogalvanic effect (CPGE). In this work, we fabricate a TI transistor with the Bi2Se3 channel layer synthesized using vapor deposition. The photocurrent response of Bi2Se3 TI is characterized under horizontal and longitudinal electric fields. CPGE and linear photogalvanic effect (LPGE) contribute to the surface state photocurrent at room temperature. The longitudinal electric field provides kinetic energy to the electrons so that the transition of electrons to higher energy bands in momentum space occurs. Under a photon excitation with the energy far above the TI bandgap, we observed a photocurrent difference between left and right circularly polarized light excitation. The photocurrent variation with gate voltage (longitudinal field) is also investigated. Adjusting the Fermi level with the gate bias leads to changes in the population of bulk state carriers and spin electrons in surface states. By shifting the gate bias toward negative, the CPGE current increases because of the reduced scattering with bulk carriers. Our work reveals that longitudinal and horizontal electric fields can manipulate the helical spin-polarized photocurrent of Bi2Se3. From the asymmetry of circularly polarized photoconductive differential current (CPDC) under the horizontal field, we found evidence of spin-polarized electron transition to other conduction band valleys at room temperature under a high-energy photon excitation. [ABSTRACT FROM AUTHOR]

Published

2023

243. Probing surface states: A study of UCF and WAL in Bi1.9Sb0.1Te2Se topological insulator.

Author

Wang, Wei, Hu, Shengjing, and Xie, Qiyun

Subjects

*TOPOLOGICAL insulators, *SURFACE states, *MESOSCOPIC devices, *TRANSPORT theory, *SEMIMETALS, *SURFACE phenomenon

Abstract

In the exploration of three-dimensional quaternary topological insulators, understanding surface states has become pivotal for unraveling the underlying physics and tapping into potential applications. Our study delves into the temperature and magnetic field-angle dependence of universal conductance fluctuations (UCF) and weak anti-localization (WAL) effects in a Bi1.9Sb0.1Te2Se topological insulator-based mesoscopic device. Conventionally, other low-temperature transport phenomena in probing surface states may inevitably face interference from three-dimensional bulk conductance. However, we experimentally demonstrate that, at low temperatures, UCF reflects the properties of two-dimensional topological surface states more accurately, thereby providing a more reliable and distinct way to confirm their existence. Moreover, we carefully analyze the temperature-dependent WAL using the Hikami–Larkin–Nagaoka model, proposing a crucial role for charge puddles associated with electrostatic fluctuations in the electron dephasing process. Our findings not only emphasize the key role of UCF in unveiling the underlying behavior of topological surface states but also offer a deeper understanding of phase-coherent transport in quaternary topological insulators. [ABSTRACT FROM AUTHOR]

Published

2023

244. Barley Nodulin 26-like intrinsic protein permeates water, metalloids, saccharides, and ion pairs due to structural plasticity and diversification.

Author

Venkataraghavan, Akshayaa, Schwerdt, Julian G., Tyerman, Stephen D., and Hrmova, Maria

Subjects

*SACCHARIDES, *ION pairs, *SMALL molecules, *SEMIMETALS, *BARLEY, *TREHALOSE, *POLYOLS

Abstract

Aquaporins can facilitate the passive movement of water, small polar molecules, and some ions. Here, we examined solute selectivity for the barley Nodulin 26-like Intrinsic Protein (HvNIP2;1) embedded in liposomes and examined through stopped-flow light scattering spectrophotometry and Xenopus laevis oocyte swelling assays. We found that HvNIP2;1 permeates water, boric and germanic acids, sucrose, and lactose but not D-glucose or D-fructose. Other saccharides, such as neutral (D-mannose, D-galactose, D-xylose, D-mannoheptaose) and charged (N-acetyl D-glucosamine, D-glucosamine, D-glucuronic acid) aldoses, disaccharides (cellobiose, gentiobiose, trehalose), trisaccharide raffinose, and urea, glycerol, and acyclic polyols, were permeated to a much lower extent. We observed apparent permeation of hydrated KCl and MgSO4 ions, while CH3COONa and NaNO3 permeated at significantly lower rates. Our experiments with boric acid and sucrose revealed no apparent interaction between solutes when permeated together, and AgNO3 or H[AuCl4] blocked the permeation of all solutes. Docking of sucrose in HvNIP2;1 and spinach water-selective SoPIP2;1 aquaporins revealed the structural basis for sucrose permeation in HvNIP2;1 but not in SoPIP2;1, and defined key residues interacting with this permeant. In a biological context, sucrose transport could constitute a novel element of plant saccharide-transporting machinery. Phylogenomic analyses of 164 Viridiplantae and 2993 Archaean, bacterial, fungal, and Metazoan aquaporins rationalized solute poly-selectivity in NIP3 sub-clade entries and suggested that they diversified from other sub-clades to acquire a unique specificity of saccharide transporters. Solute specificity definition in NIP aquaporins could inspire developing plants for food production. [ABSTRACT FROM AUTHOR]

Published

2023

245. Nonreciprocal Electromagnetic Wave Manipulation via a Single Reflection.

Author

Wang, Lu

Subjects

ELECTROMAGNETIC waves, ELECTROMAGNETIC fields, SEMIMETALS, RADIATION, ATHLETIC fields

Abstract

Electromagnetic field manipulation plays a key role in applications such as electron acceleration, nonlinear light–matter interaction, and radiation engineering. Nonreciprocal materials, such as Weyl semimetals, enable the manipulation of the electromagnetic field in a full photonic manner, owing to their intrinsic time‐reversal symmetry breaking, leading to asymmetric material response for photons with +k$+ k$ and −k$- k$ momenta. Herein, the results suggest that a simple planar interface between semi‐infinite air and a nonreciprocal material can achieve spatiotemporal manipulation of the electromagnetic field. In particular, this work presents three compelling scenarios for electromagnetic wave manipulation: radiation pattern redistribution (with closed‐form expressions provided), carrier‐envelope‐phase control, and spatial profile control. The presented results pave the way for electromagnetic field manipulation using pattern‐free nonreciprocal materials. [ABSTRACT FROM AUTHOR]

Published

2023

246. Charge-4e superconductivity and chiral metal in 45°-twisted bilayer cuprates and related bilayers.

Author

Liu, Yu-Bo, Zhou, Jing, Wu, Congjun, and Yang, Fan

Subjects

SUPERCONDUCTIVITY, CUPRATES, RENORMALIZATION group, ANGULAR momentum (Mechanics), RENORMALIZATION (Physics), PHASE diagrams, METALS, TERBIUM, SEMIMETALS

Abstract

The material realization of charge-4e/6e superconductivity (SC) is a big challenge. Here, we propose to realize charge-4e SC in maximally-twisted homobilayers, such as 45∘-twisted bilayer cuprates and 30∘-twisted bilayer graphene, referred to as twist-bilayer quasicrystals (TB-QC). When each monolayer hosts a pairing state with the largest pairing angular momentum, previous studies have found that the second-order interlayer Josephson coupling would drive chiral topological SC (TSC) in the TB-QC. Here we propose that, above the Tc of the chiral TSC, either charge-4e SC or chiral metal can arise as vestigial phases, depending on the ordering of the total- and relative-pairing-phase fields of the two layers. Based on a thorough symmetry analysis to get the low-energy effective Hamiltonian, we conduct a combined renormalization-group and Monte-Carlo study and obtain the phase diagram, which includes the charge-4e SC and chiral metal phases. Liu et al. theoretically study maximally-twisted homo-bilayers, such as 45∘-twisted bilayer cuprates and 30∘-twisted bilayer graphene. Through renormalization group and Monte-Carlo calculations, the authors reveal the presence of charge-4e superconductivity and chiral-metal phases in the phase diagram. [ABSTRACT FROM AUTHOR]

Published

2023

247. Bioaccumulation of Some Metals and Metalloids in Laughing Gulls (Leucophaeus atricilla): Increases in Mercury and Decreases in Selenium from 2019 to 2022/2023.

Author

Burger, Joanna, Feigin, Stephanie, Fojtik, Alinde, Dey, Amanda, and Ng, Kelly

Subjects

GULLS, LIMULUS polyphemus, SEMIMETALS, LIMULIDAE, SELENIUM, LAUGHTER, MERCURY

Abstract

The elements in blood normally reflect the levels in prey, indicating a recent exposure. Laughing gulls (Leucophaes atricilla) eat mainly horseshoe crab eggs (Limulus polyphemus) in the spring in Delaware Bay, New Jersey. The levels of arsenic (As), cadmium (Cd), chromium (Cr), lead (Pb), mercury (Hg), and selenium (Se) in the blood of laughing gulls foraging on crab eggs were examined in Delaware Bay to provide information on a species that is normally a generalist, and to determine if the levels of these elements were similar in 2019 and 2022/2023, were intercorrelated, and were related to those in crab eggs. Hg increased from 2019 (136 ± 31 ng/g) to 2022/2023 (473 ± 75 ng/g), while Cd and Se decreased. There were some significant correlations among elements and a close relationship between the element levels in blood and those in crab eggs collected in the same month (except for As). The levels differed between laughing gulls and three species of shorebirds for As and Cd. The elements in the blood of gulls and shorebirds should be similar because they eat mainly the same eggs in the same places. A significant proportion of laughing gull blood samples had levels of Hg and Se that were above the levels associated with adverse effects, which requires further examination. [ABSTRACT FROM AUTHOR]

Published

2023

248. Study of geochemical features of soils on the territory of an abandoned coal mining area using geoinformation technologies.

Author

Dziuba, Ekaterina, Buzmakov, Sergei, and Khotyanovskaya, Yuliya

Subjects

COAL mining, ABANDONED mines, SEMIMETALS, COAL basins, SOILS, HUMUS

Abstract

The article describes the results of a study of the geochemical features of soils on the territory of an abandoned mining area. The Kizel coal basin (Russia) is of particular interest for studying the consequences of technogenic and post-technogenic transformation of the natural environment. The study of the soil as a deposit medium made it possible to identify geochemical indicators of the negative impact. Such a detailed study of the distribution of chemical elements in this area was conducted for the first time. Geoinformation system and maps with interpolation were created to study the spatial distribution of metals and metalloids in soils. Umbric Retisols Abruptic and Haplic Retisols Abruptic soils are common in the territory. Sampling for geochemical testing was carried out from two horizons: humus and podzolic. Sampling from two depths made it possible to identify elements that continue to be contaminated at the time of the study. A total of 103 sample plots were established in the study area. The results obtained were compared with the background of the natural region of the Western Urals to identify the contribution of technogenesis. As a result, the coefficients of concentration and dispersion of chemical elements were calculated. Due to this, elements were identified, the accumulation of which occurs on the territory of the Kizelovsky coal basin. To identify the current and accumulated pollution, the ratio between the humus and podzolic horizons was calculated. As a result, it was found that at the moment in the humus horizon in some areas there is a high accumulation of Co, Mn, Ni and Sr. The geochemical series of the territory for the humus and podzolic horizons was obtained: Fe > Ti > Mn > Sr > Cr > V > Zn > Ni > Co > Pb > As. Data on the geochemical specificity of the territory of the Kizel coal basin have been obtained. The created geoinformation database reflects the physical and chemical properties of soils, metals and metalloids content, dispersion and accumulation coefficients, coefficients of the ratio of the humus and podzolic horizon. Based on it, it is possible to obtain data on the geochemical features of the territory, geoecological characteristics, spatial distribution of metals and metalloids and identification of pollution sources. Co (24 ± 2.8 mg/kg), Mn (1100 ± 155 mg/kg), Ni (69 ± 9.3 mg/kg), As (10 ± 3.5 mg/kg), Cr (178 ± 20 mg/kg), Zn (80 ± 7.8 mg/kg) and Sr (221 ± 26 mg/kg) accumulate in the humus horizon. Co (24 ± 1.8 mg/kg), Mn (1000 ± 103 mg/kg), Ni (60 ± 6.4 mg/kg) and Cr (153 ± 15.2 mg/kg) accumulate in the podzolic horizon. [ABSTRACT FROM AUTHOR]

Published

2023

249. Metal and metalloid concentrations in wild mammals from SW Europe: European hedgehog (Erinaceus europaeus) and badger (Meles meles).

Author

García-Muñoz, Javier, Cacciola, Nunzio Antonio, Plazzi, Federico, Prado Míguez-SantiyánToxicology Area, María, Rodríguez, Francisco Soler, López-Beceiro, Ana, Fidalgo, Luis Eusebio, Martínez-Morcillo, Salomé, and Pérez-López, Marcos

Subjects

OLD World badger, HEDGEHOGS, SEMIMETALS, HEAVY metals, MAMMALS, REFERENCE values, KIDNEYS

Abstract

In recent years, there have been increasing ecological and global concerns associated to Potentially Toxic Elements (PTEs). Thus, the relevance of wild mammals as biomonitors has been globally recognised. In the present study, Cd, Pb, Hg, Zn and As concentrations were quantified in European hedgehog and badger inhabiting SW Europe, and cumulative trends in relation to age and sex were evaluated. Liver and kidney samples were collected, mineralised and PTE content was determined by ICP-MS. Zn was the most abundant element quantified in both organs (239 and 89.8 mg kg-1 for hedgehogs and 179 and 164 mg kg-1 dw for badgers). In hedgehogs, very high Hg concentration were quantified (4.35 and 15.5 mg kg-1 dw in liver and kidney), and Cd was the most abundant for badgers (4.70 and 7.61 mg kg-1 dw in liver and kidney). Positive correlations were observed for the concentrations of PTE in the organs of both species. Age-dependence increased only Cd concentration, with levels in adult kidneys being significantly higher. In this study, European hedgehog and badger were used as biomonitors for the determination of PTEs to provide current reference values in relatively non-polluted areas of SW Europe, and to enhance the use of these species for future ecotoxicological studies. [ABSTRACT FROM AUTHOR]

Published

2023

250. Laboratory removal of toxic metals from water using selected sorbents.

Author

Moravčíková, Světlana and Biela, Renata

Subjects

*HEAVY metals, *WATER use, *LEAD, *WATER filtration, *SORBENTS, *ARSENIC, *SEMIMETALS

Abstract

Currently there are many substances that pollute drinking water sources, including various metals, metalloids and their compounds. In small quantities, certain metals can be essential for human health, however in large quantities they can cause acute or chronic toxicity. Therefore, it is necessary to remove harmful metals from water. In order to compare selected sorption materials for the removal of harmful metals from water, a laboratory experiment was carried out on filter columns. Columns with an internal diameter of 4.4 cm were filled up to a height of 80 cm with the sorption materials selected for testing - they were GEH, Bayoxide E33 and Filtrasorb F400. At the bottom of the columns there was a drainage layer preventing leakage of soption materials during filtration. Toxic metals and metalloids - arsenic, nickel and lead, which were added to tap water for the purposes of the experiment, were removed from the water by filtration. A suction hose of a pump was inserted into the barrel with model water and the water was pumped from the barrel into the individual columns. The amount of water flowing was regulated on a flow meter, with a maximum flow defined at 20 l/h. During filtration, water samples were taken at 1, 2, 4 and 6 minutes from the start of the experiment. The temperature, pH and turbidity of these samples were determined directly in the laboratory, and then the samples were sent to the laboratory of the Health Institute based in Ostrava to determine the concentrations of individual metals. From the results of the analyses, it was possible to observe that all of the materials lowered concentrations of the metals below the limit value announced by the decree. However, the Filtrasorb F100 material achieved significantly lower efficiency than the other two materials. The materials GEH and Bayoxide E33 achieved a high efficiency of approximately 90%, based on several criteria, the material Bayoxide E33 was evaluated as a more suitable material for the removal of monitored metals. [ABSTRACT FROM AUTHOR]

Published

2023