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Journal articles on the topic 'Tellurure de nickel'

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Published: 22 June 2024

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1

Rustembekov, K. T., M. S. Kasymova, Ye V. Minayeva, and A. Zh Bekturganova. "Lanthanum-magnesium-nickel tellurite: thermodynamic and electrophysical characteristics." Bulletin of the Karaganda University. "Chemistry" series 94, no. 2 (June 28, 2019): 69–75. http://dx.doi.org/10.31489/2019ch2/69-75.

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2

Zhang, Shiyi, Dongzhi Yang, Ming Zhang, Yaxin Liu, Ting Xu, Jing Yang, and Zhong-Zhen Yu. "Synthesis of novel bimetallic nickel cobalt telluride nanotubes on nickel foam for high-performance hybrid supercapacitors." Inorganic Chemistry Frontiers 7, no. 2 (2020): 477–86. http://dx.doi.org/10.1039/c9qi01395d.

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Novel bimetallic nickel cobalt telluride nanotubes are grown on nickel foam by solvothermal synthesis and ion-exchange reaction for constructing self-standing hybrid supercapacitor electrodes with high specific capacity and electrical conductivity.
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3

Mu, Yannan, Qian Li, Pin Lv, Yanli Chen, Dong Ding, Shi Su, Liying Zhou, Wuyou Fu, and Haibin Yang. "Fabrication of NiTe films by transformed electrodeposited Te thin films on Ni foils and their electrical properties." RSC Adv. 4, no. 97 (2014): 54713–18. http://dx.doi.org/10.1039/c4ra11246f.

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4

Radisavljević, Ivana, Nikola Novaković, Nenad Ivanović, Nebojša Romčević, Miodrag Manasijević, and Heinz-Eberhard Mahnke. "XAFS studies of nickel-doped lead telluride." Physica B: Condensed Matter 404, no. 23-24 (December 2009): 5032–34. http://dx.doi.org/10.1016/j.physb.2009.08.209.

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5

Yadava, Y. P., and R. A. Singh. "On the electrical transport in nickel telluride." Journal of Materials Science Letters 4, no. 11 (November 1985): 1421–24. http://dx.doi.org/10.1007/bf00720118.

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6

Deiseroth, Hans-Jörg, Filip Spirovski, Christof Reiner, and Marc Schlosser. "Crystal structures of nickel germanium selenide, Ni5.45GeSe2, and nickel germanium telluride, Ni5.45GeTe2." Zeitschrift für Kristallographie - New Crystal Structures 222, no. 3 (September 2007): 171–72. http://dx.doi.org/10.1524/ncrs.2007.0071.

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7

De Meester, P., and J. Naud. "Contribution à L'Étude des Tellurures de Cobalt et de Nickel." Bulletin des Sociétés Chimiques Belges 83, no. 7-8 (September 2, 2010): 219–25. http://dx.doi.org/10.1002/bscb.19740830702.

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8

Numan, Mohamad, Md Salman Khan, and Subham Majumdar. "Vacancy induced mixed valence state in nickel tellurate Ni3TeO6." Materials Today: Proceedings 57 (2022): 151–56. http://dx.doi.org/10.1016/j.matpr.2022.02.202.

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9

Lei, C., K. S. Ryder, E. Koukharenko, M. Burton, and Iris S. Nandhakumar. "Electrochemical deposition of bismuth telluride thick layers onto nickel." Electrochemistry Communications 66 (May 2016): 1–4. http://dx.doi.org/10.1016/j.elecom.2016.02.005.

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10

Clerjaud, B., A. Gelineau, F. Gendron, C. Naud, and C. Porte. "Study of the deep nickel acceptor in zinc telluride." Journal of Crystal Growth 72, no. 1-2 (July 1985): 351–54. http://dx.doi.org/10.1016/0022-0248(85)90171-x.

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11

Pormohammad, Ali, and Raymond J. Turner. "Silver Antibacterial Synergism Activities with Eight Other Metal(loid)-Based Antimicrobials against Escherichia coli, Pseudomonas aeruginosa, and Staphylococcus aureus." Antibiotics 9, no. 12 (November 28, 2020): 853. http://dx.doi.org/10.3390/antibiotics9120853.

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The present study surveys potential antibacterial synergism effects of silver nitrate with eight other metal or metalloid-based antimicrobials (MBAs), including silver nitrate, copper (II) sulfate, gallium (III) nitrate, nickel sulfate, hydrogen tetrachloroaurate (III) trihydrate (gold), aluminum sulfate, sodium selenite, potassium tellurite, and zinc sulfate. Bacteriostatic and bactericidal susceptibility testing explored antibacterial synergism potency of 5760 combinations of MBAs against three bacteria (Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus) in three different media. Silver nitrate in combination with potassium tellurite, zinc sulfate, and tetrachloroaurate trihydrate had remarkable bactericidal and bacteriostatic synergism effects. Synergism properties of MBAs decreased effective antibacterial concentrations remarkably and bacterial cell count decreased by 8.72 log10 colony-forming units (CFU)/mL in E. coli, 9.8 log10 CFU/mL in S. aureus, and 12.3 log10 CFU/mL in P. aeruginosa, compared to each MBA alone. Furthermore, most of the MBA combinations inhibited the recovery of bacteria; for instance, the combination of silver nitrate–tetrachloroaurate against P. aeruginosa inhibited the recovery of bacteria, while three-fold higher concentration of silver nitrate and two-fold higher concentration of tetrachloroaurate were required for inhibition of recovery when used individually. Overall, higher synergism was typically obtained in simulated wound fluid (SWF) rather than laboratory media. Unexpectedly, the combination of A silver nitrate–potassium tellurite had antagonistic bacteriostatic effects in Luria broth (LB) media for all three strains, while the combination of silver nitrate–potassium tellurite had the highest bacteriostatic and bactericidal synergism in SWF. Here, we identify the most effective antibacterial MBAs formulated against each of the Gram-positive and Gram-negative pathogen indicator strains.
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12

KHENE, SAMSON, and TEBELLO NYOKONG. "CHARACTERIZATION OF QUANTUM DOTS, SINGLE WALLED CARBON NANOTUBES AND NICKEL OCTADECYLPHTHALOCYANINE CONJUGATES." International Journal of Nanoscience 11, no. 02 (April 2012): 1250022. http://dx.doi.org/10.1142/s0219581x12500226.

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In this work nickel octadecylphthalocyanine (NiPc(C10H21)8) and cadmium telluride quantum dots (QDs) capped with thioglycolic acid (TGA) are adsorbed on single walled carbon nanotubes (SWCNT) to form NiPc(C10H21)8 -SWCNT-QDs conjugate. X-ray photoelectron, ultra violet/visible and Raman spectroscopies are used to characterize the conjugate. SWCNT, poly- Ni(O)Pc(C10H21)8 , NiPc(C10H21)8 -SWCNT and NiPc(C10H21)8 -SWCNT-QDs complexes are used to modify glassy carbon electrode (GCE) and used for the electro-oxidation of pentachlorophenol as a test molecule. NiPc(C10H21)8 -SWCNT-QDs electrode gave the best detection current for pentachlorophenol.
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13

Sun, Ke, Fadl H. Saadi, Michael F. Lichterman, William G. Hale, Hsin-Ping Wang, Xinghao Zhou, Noah T. Plymale, et al. "Stable solar-driven oxidation of water by semiconducting photoanodes protected by transparent catalytic nickel oxide films." Proceedings of the National Academy of Sciences 112, no. 12 (March 11, 2015): 3612–17. http://dx.doi.org/10.1073/pnas.1423034112.

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Reactively sputtered nickel oxide (NiOx) films provide transparent, antireflective, electrically conductive, chemically stable coatings that also are highly active electrocatalysts for the oxidation of water to O2(g). These NiOx coatings provide protective layers on a variety of technologically important semiconducting photoanodes, including textured crystalline Si passivated by amorphous silicon, crystalline n-type cadmium telluride, and hydrogenated amorphous silicon. Under anodic operation in 1.0 M aqueous potassium hydroxide (pH 14) in the presence of simulated sunlight, the NiOx films stabilized all of these self-passivating, high-efficiency semiconducting photoelectrodes for >100 h of sustained, quantitative solar-driven oxidation of water to O2(g).
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14

Surabhi, S., K. Anurag, and S. R. Kumar. "Structural, morphological, electrical and optical properties of Zn doped CdTe thin films." Chalcogenide Letters 19, no. 2 (February 2022): 143–52. http://dx.doi.org/10.15251/cl.2022.192.143.

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Cadmium Zinc Telluride (CdZnTe) is a ternary Ⅱ- Ⅵundeviating band gap semiconductor with cubic Zinc blende formation and it is a propitious material for ambient temperature xray as well as gamma ray sensor detectors. Cadmium Zinc Telluride (CdZnTe) thin layer coating were developed on nickel substrate by chemical bath deposition in non-aqueous approach. The as grown films were inspected by X-ray diffraction (XRD), Field emission scanning electron microscope (FESEM), Scanning electron microscope, Fourier transform infrared spectroscopy (FTIR), PL spectra, UV spectra, Raman spectroscopy and FourProbe analysis. Studies tell that as grown films are poly-crystalline in nature along with cubic zinc blende formation. The structural properties like crystallite size, lattice constant, micro strain as well as dislocation density were evaluated. FESEM and SEM analysis reveals that the as developed films are smooth and equal sized uniform spherical grains distributed in single state as well as in cluster form. The average size of grain film is observed to be 12.33 nm. Optical study reveals the broad transmittance escorted by the band gap energy of 2.2eV. Electrical study reveals that resistivity of as grown film is 5.1×105 Ω-cm at room temperature.
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15

Bastola, Ebin, Khagendra P. Bhandari, and Randy J. Ellingson. "Application of composition controlled nickel-alloyed iron sulfide pyrite nanocrystal thin films as the hole transport layer in cadmium telluride solar cells." Journal of Materials Chemistry C 5, no. 20 (2017): 4996–5004. http://dx.doi.org/10.1039/c7tc00948h.

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16

Gulay, L. D., M. Daszkiewicz, and A. Pietraszko. "Evidence of a centre of symmetry: redetermination of Ni2.60Te2 from single-crystal data." Acta Crystallographica Section E Structure Reports Online 63, no. 11 (October 19, 2007): i188. http://dx.doi.org/10.1107/s1600536807050568.

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The crystal structure of the title compound, nickel telluride, with composition Ni2.60Te2, has been the subject of a previous investigation based on X-ray powder data, when a slightly different composition of Ni2.58Te2 was determined [Gulay & Olekseyuk (2004). J. Alloys Compd, 376, 131–138]. In contrast to the previous refinement in the space group Pmc21, the redetermination from single-crystal data reveals a centre of symmetry and the structure was refined in the space group Pnma with improved precision for the atomic coordinates and interatomic distances. The structure can be described as a c × a × (3a)1/2 distorted orthorhombic variant of the hexagonal Ni1.10Se0.16Te0.74 structure. All atoms are situated on mirror planes.
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17

Halet, Jean Francois, Roald Hoffmann, Wolfgang Tremel, Eric W. Liimatta, and James A. Ibers. "Electronic structure of a new ternary chalcogenide: niobium nickel telluride (NbNiTe5)." Chemistry of Materials 1, no. 4 (July 1989): 451–59. http://dx.doi.org/10.1021/cm00004a013.

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18

Li, Jiahui, Genyan Hao, Gang Jin, Tao Zhao, Dandan Li, Dazhong Zhong, Jinping Li, and Qiang Zhao. "Cobalt telluride regulated by nickel for efficient electrooxidation of 5-hydroxymethylfurfural." Journal of Colloid and Interface Science 670 (September 2024): 96–102. http://dx.doi.org/10.1016/j.jcis.2024.05.050.

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19

Anand, T. Joseph Sahaya, and Mohd Zaidan. "Electro Synthesised NiTe2 Thin Films with the Influence of Additives." Advanced Materials Research 925 (April 2014): 159–63. http://dx.doi.org/10.4028/www.scientific.net/amr.925.159.

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Solar cell is one of the promising alternative green energy sources that can provide free electricity when sunlight is converted. The absorbent materials and their synthesis methods are subject of interest mainly due to solar panel installation cost despite of free electricity generated. The well-known silicon solar cells made, either amorphous or polycrystalline are good in conversion efficiency up to 17%, but their high cost make the researchers to look for alternate materials. Semiconducting materials in thin film form such as InP, SnO2 and ZnO are being studied as the alternative materials, but are not commercialised due to their poor conversion efficiency. Another group of semiconductor compounds known as transition metal chalcogenides (TMC) have been developed to be used as the absorbent materials. Consisting of transition metals and chalcogenides (S, Se and Te), they show promising solar absorbent properties such as semiconducting band gap, well adhesion to substrate and good conversion with better cost-effective. There are many TMC compounds synthesised, including copper indium selenide (CIS), ZnTe2, CdSe etc. Nickel, one of the transition metals synthesised with chalcogenides are referred as nickel chalcogenides. There are many possible combinations of nickel chalcogenides such as NiS2, NiSe, NiSe2 and Ni3Se2. The combination of nickel and telluride are the fewest being observed due to the nature of tellurium that is poorly-adhesive onto the substrate. Therefore, NiTe2 thin film is being electro-synthesised onto the indium tin oxide (ITO) coated glass substrates and their properties are studied. The additives are being used to improve the adhesion between the film and substrate. Cyclic voltammetry experiments have been done prior to electrodeposition in order to get the electrodeposition potential range where the observable reduction range is between-0.9-(-1.1) V. The electrodeposition is carried out using the potentials in the reduction region, producing the well-adherent, well-distributed and dark-coloured thin films.
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20

Shukla, N. K., R. Prasad, K. N. Roy, and D. D. Sood. "Standard molar enthalpies of formation at the temperature 298.15 K of iron telluride (FeTe0.9) and of nickel telluride (Ni0.595Te0.405)." Journal of Chemical Thermodynamics 22, no. 9 (September 1990): 899–903. http://dx.doi.org/10.1016/0021-9614(90)90178-s.

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21

Sokolov, V. I., N. B. Gruzdev, and I. A. Farina. "Local vibrational mode in zinc telluride associated with a charged nickel impurity." Physics of the Solid State 45, no. 9 (September 2003): 1638–43. http://dx.doi.org/10.1134/1.1611225.

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22

Yu, Zhijing, Shuqiang Jiao, Jiguo Tu, Yiwa Luo, Wei-Li Song, Handong Jiao, Mingyong Wang, Haosen Chen, and Daining Fang. "Rechargeable Nickel Telluride/Aluminum Batteries with High Capacity and Enhanced Cycling Performance." ACS Nano 14, no. 3 (March 2, 2020): 3469–76. http://dx.doi.org/10.1021/acsnano.9b09550.

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23

Reynolds, Thomas K., Richard F. Kelley, and Francis J. DiSalvo. "Electronic transport and magnetic properties of a new nickel antimonide telluride, Ni2SbTe2." Journal of Alloys and Compounds 366, no. 1-2 (March 2004): 136–44. http://dx.doi.org/10.1016/j.jallcom.2003.07.008.

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24

Souri, Dariush, and Seyed Ali Salehizadeh. "Glass transition, fragility, and structural features of amorphous nickel–tellurate–vanadate samples." Journal of Thermal Analysis and Calorimetry 112, no. 2 (August 26, 2012): 689–95. http://dx.doi.org/10.1007/s10973-012-2613-y.

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25

Zajdel, P., M. Zubko, J. Kusz, and M. A. Green. "Single crystal growth and structural properties of iron telluride doped with nickel." Crystal Research and Technology 45, no. 12 (October 15, 2010): 1316–20. http://dx.doi.org/10.1002/crat.201000375.

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26

Guo, Zhi-Cheng, Fen Luo, Xiu-Lu Zhang, Cheng-An Liu, and Ling-Cang Cai. "Phase transition and thermodynamic properties of beryllium telluride under high pressure." International Journal of Modern Physics B 29, no. 15 (May 25, 2015): 1550096. http://dx.doi.org/10.1142/s0217979215500964.

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A theoretical investigation on structural, dynamical, phase diagram and thermodynamic properties of beryllium telluride (BeTe) under high pressure and temperature is presented in the framework of density functional theory. The calculated structural parameters of BeTe in both zinc blende (ZB) and nickel arsenide (NiAs) structures are in reasonable agreement with available experimental data and previous theoretical work. The phonon dispersion relations, dielectric tensor and Born effective charge are investigated within the density functional perturbation theory (DFPT). The investigation of the phase diagram indicated that the NiAs structure BeTe becomes stable at high pressure and temperature. Based on the quasiharmonic Debye model, the pressure and temperature dependences of bulk modulus, Grüneisen parameter, Debye temperature, specific heat and thermal expansion coefficient are all successfully obtained. We hope that the theoretical results reported here can give more insight into the structural and thermodynamic properties of other semiconductors at high temperature and pressure.
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27

Banerjee, Pushan, and B. Ghosh. "A Contacting Technology to Magnetic Semiconductors." Advances in Science and Technology 52 (October 2006): 31–35. http://dx.doi.org/10.4028/www.scientific.net/ast.52.31.

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The present paper describes the contacting technology to the diluted magnetic semiconductor Cd1-xMnxTe having potential applications in optoelectronic and spintronic devices. For efficient spin injection into a spintronic material, a matching ohmic contact is the demand of the time. Since cadmium telluride has a well-known contact problem, its manganese-doped counterpart is also facing a similar difficulty. In the present case Cd1-xMnxTe was fabricated using thermally assisted interdiffusion and compound formation between repeated stacked elemental layers of manganese, cadmium and tellurium. A wet electroless deposition technique was employed to deposit manganese doped nickel phosphide as a magnetic contact onto Cd1-xMnxTe. It appeared that the contact resistivity improved compared to the case of gold contact. The details of the contacting technology and the results have been described in the text of the paper.
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28

ATESER, ENGIN, HAVVA BOGAZ OZISIK, ENGIN DELIGOZ, and KEMAL COLAKOGLU. "THE FIRST-PRINCIPLES STABILITY STUDY OF PdC AND CdC COMPOUNDS." International Journal of Modern Physics B 27, no. 06 (February 5, 2013): 1350016. http://dx.doi.org/10.1142/s0217979213500161.

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We have studied structural, mechanical and dynamical properties of PdC and CdC compounds to predict the most stable structure. We have focused on seven binary structure types as rock salt (RS), caesium chloride ( CsCl ), zinc blende (ZB), wurtzite (WZ), tungsten carbide (WC), cadmium telluride ( CdTe ) and nickel arsenide ( NiAs ). For modelling exchange-correlation effects we have used generalized gradient (GGA) approximation based on Perdew–Burke–Ernzhorf functional (PBE). The polycrystalline elastic moduli such as Young's and shear moduli, Poisson's ratio, sound velocities, Debye temperatures and shear anisotropic factors have been presented for mechanically stable structures using second-order elastic constants calculated from the stress-strain relations. The results show that PdC is thermodynamically, mechanically and dynamically stable in ZB structure. On the other hand, while CdC is energetically in favor of RS structure, it is mechanically and dynamically stable in ZB structure.
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29

De Silva, Umanga, Jahangir Masud, Ning Zhang, Yu Hong, Wipula P. R. Liyanage, Mohsen Asle Zaeem, and Manashi Nath. "Nickel telluride as a bifunctional electrocatalyst for efficient water splitting in alkaline medium." Journal of Materials Chemistry A 6, no. 17 (2018): 7608–22. http://dx.doi.org/10.1039/c8ta01760c.

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Ni3Te2 has been reported as a highly efficient OER electrocatalyst with an overpotential of 180 mV at 10 mA cm−2 and also showing HER catalytic activity in alkaline medium.
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30

Bhat, Karthik S., Harish C. Barshilia, and H. S. Nagaraja. "Porous nickel telluride nanostructures as bifunctional electrocatalyst towards hydrogen and oxygen evolution reaction." International Journal of Hydrogen Energy 42, no. 39 (September 2017): 24645–55. http://dx.doi.org/10.1016/j.ijhydene.2017.08.098.

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31

Zhang, Dong, Mats Johnsson, Sven Lidin, and Reinhard K. Kremer. "The new nickel tellurite chloride compound Ni15Te12O34Cl10– synthesis, crystal structure and magnetic properties." Dalton Trans. 42, no. 5 (2013): 1394–99. http://dx.doi.org/10.1039/c2dt32158k.

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32

Pradhan, Susmita, Rashmita Das, Sudip Biswas, Dipak K. Das, Radhaballabh Bhar, Rajib Bandyopadhyay, and Panchanan Pramanik. "Chemical synthesis of nanoparticles of nickel telluride and cobalt telluride and its electrochemical applications for determination of uric acid and adenine." Electrochimica Acta 238 (June 2017): 185–93. http://dx.doi.org/10.1016/j.electacta.2017.04.023.

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33

Manikandan, M., K. Subramani, S. Dhanuskodi, and M. Sathish. "One-Pot Hydrothermal Synthesis of Nickel Cobalt Telluride Nanorods for Hybrid Energy Storage Systems." Energy & Fuels 35, no. 15 (May 6, 2021): 12527–37. http://dx.doi.org/10.1021/acs.energyfuels.1c00351.

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34

Grundish, Nicholas Spencer, Ieuan David Seymour, Yutao Li, Graeme Henkelman, Claude Delmas, and John Bannister Goodenough. "Solid State and Intercalation Chemistry of Nickel-Tellurate Cathodes for Lithium and Sodium Batteries." ECS Meeting Abstracts MA2021-02, no. 2 (October 19, 2021): 204. http://dx.doi.org/10.1149/ma2021-022204mtgabs.

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35

Suo, Chunguang, Lei Zhao, Xinghua Shi, and Jinbin Gui. "Electroless nickel deposition over the surface of bismuth telluride wafer as a barrier layer." Integrated Ferroelectrics 172, no. 1 (June 2016): 160–68. http://dx.doi.org/10.1080/10584587.2016.1177383.

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36

Jiang, Hai-Long, Zhi Xie, and Jiang-Gao Mao. "Ni3(Mo2O8)(XO3) (X = Se, Te): The First Nickel Selenite- and Tellurite-Containing Mo4Clusters." Inorganic Chemistry 46, no. 16 (August 2007): 6495–501. http://dx.doi.org/10.1021/ic700500q.

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37

Xu, Jiapeng, Jin Wang, Zhoujie Chen, Xiaoqian Xia, Sheng Li, and Zhengquan Li. "Boosting photocatalytic hydrogen generation of cadmium telluride colloidal quantum dots by nickel ion doping." Journal of Colloid and Interface Science 549 (August 2019): 63–71. http://dx.doi.org/10.1016/j.jcis.2019.04.054.

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38

Arshad Kamran, Muhammad, Ayesha Abbas, Sami Ullah, Muneerah Alomar, Sehrish Malik, Muhammad Hammad Aziz, and Syeda Farwa Bukhari. "Boosting electrochemical and photocatalytic performance of Cadmium Sulfide/Zinc Telluride nanocomposites via Nickel doping." Materials Science and Engineering: B 299 (January 2024): 116932. http://dx.doi.org/10.1016/j.mseb.2023.116932.

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39

Zajdel, Pawel, I.-Lin Liu, Nicholas Butch, and Izabela Kruk. "Evolution of magnetic and crystal structure of FeTe doped with Cr and Ni." Acta Crystallographica Section A Foundations and Advances 70, a1 (August 5, 2014): C1466. http://dx.doi.org/10.1107/s2053273314085337.

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Due to inherent phase separation, it has been so far impossible to grow ideally stoichiometric (1:1) tetragonal (P 4/n m m) iron telluride. The excess iron ions are located in the inter-planar positions and usually represented as a fraction x in a general formula Fe1+xTe [1], where x ranges from about 4% to 17%. The additional iron has been found to negatively correlate with the level of anion site doping and subsequently with hindering the superconductivity (SC), for example in the Fe(Te,Se,S) [2] series, where SC can be induced by doping with selenium or small amounts of sulfur. A binary Fe1+xTe orders magnetically into incommensurate magnetic structure with the transition temperature and crystal structure in the magnetic state depending on the excess iron. For x<0.12 a monoclinic (P 21/m) distortion was observed and for x>0.12 an orthorhombic one (P m m n). In our work, we attempted to create and investigate compounds electronically equivalent to variable iron stoichometry by substituting Fe with chromium (3d electron deficient) or nickel (3d electron rich). Single crystal samples several millimeter in size were grown by solidification from melt method in the substitution range 0.025 to 0.1 and only in the case of nickel the incorporation of dopant into host lattice was confirmed. Despite low effective Cr content in the single crystal form [3], neutron powder diffraction (NPD) of polycrystaline specimens revealed systematic decrease of long range magnetic moment and gradual suppression of monoclinic (M) distortion in both series. In the Cr doped series, the structure evolved through a mixed phase region into orthorhombic (O) one (Fig. 1), whereas in the nickel system a complete restoration of tetragonal symmetry was found. The suppression of magnetic ordering and lack of the structural distortion did not result in the SC. This work is supported by the Polish National Science Centre grant No 2011/01/B/ST3/00425
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40

Bhol, P., S. A. Patil, N. Barman, Erakulan Ekambaram Siddharthan, R. Thapa, M. Saxena, A. Altaee, and A. K. Samal. "Design and fabrication of cobaltx nickel(1-x) telluride microfibers on nickel foam for battery-type supercapacitor and oxygen evolution reaction study." Materials Today Chemistry 30 (June 2023): 101557. http://dx.doi.org/10.1016/j.mtchem.2023.101557.

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41

Qi, Yu, Zhi Yang, Shuai Peng, Mitang Wang, Jilin Bai, Hong Li, and Dehua Xiong. "Self-supported cobalt–nickel bimetallic telluride as an advanced catalyst for the oxygen evolution reaction." Inorganic Chemistry Frontiers 8, no. 18 (2021): 4247–56. http://dx.doi.org/10.1039/d1qi00693b.

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42

Oh, Jeonghyeon, Ho Jun Park, Arindam Bala, Hee-Soo Kim, Na Liu, Sooho Choo, Min Hyung Lee, Suk Jun Kim, and Sunkook Kim. "Nickel telluride vertically aligned thin film by radio-frequency magnetron sputtering for hydrogen evolution reaction." APL Materials 8, no. 12 (December 1, 2020): 121104. http://dx.doi.org/10.1063/5.0024588.

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43

Malik, M. Suleman, and C. A. Hogarth. "Different effects of nickel and cobalt additions on the electronic conduction of copper tellurite glasses." Journal of Materials Science 25, no. 5 (May 1990): 2585–89. http://dx.doi.org/10.1007/bf00638062.

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44

Li, Jian, Qingfeng Song, Ruiheng Liu, Hongliang Dong, Qihao Zhang, Xun Shi, Shengqiang Bai, and Lidong Chen. "Thermoelectric Performance Optimization of n-Type La3−xSmxTe4/Ni Composites via Sm Doping." Energies 15, no. 7 (March 23, 2022): 2353. http://dx.doi.org/10.3390/en15072353.

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La3Te4-based rare-earth telluride is a kind of n-type high-temperature thermoelectric (TE) material with an operational temperature of up to 1273 K, which is a promising candidate for thermoelectric generators. In this work, the Sm substitution in La3−xSmxTe4/Ni composites is reported. The electrical transport property of La3−xSmxTe4 is modified by reducing carrier concentration due to the substitution of Sm2+ for La3+. The electric thermal conductivity decreases by 90% due to carrier concentration reduction, which mainly contributes to a reduction in total thermal conductivity. Lattice thermal conductivity also decreases by point-defect scattering by Sm doping. Meanwhile, based on our previous study, compositing nickel improves the thermal stability of the La3 − xSmxTe4 matrix. Finally, combined with carrier concentration optimization and the decreased thermal conductivity, a maximum zT of 1.1 at 1273 K and an average zTave value of 0.8 over 600 K–1273 K were achieved in La2.315Sm0.685Te4/10 vol.% Ni composite, which is among the highest TE performance reported in La3Te4 compounds.
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45

Shi, M. M., J. Wang, S. R. Liu, X. M. Zhou, L. Liu, P. Y. Su, S. Feng, W. Y. Fu, and H. B. Yang. "The effects of sodium tartrate concentration on the properties of CdTe thin films prepared by electrodeposition." Modern Physics Letters B 33, no. 17 (June 18, 2019): 1950183. http://dx.doi.org/10.1142/s0217984919501835.

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In this paper, we successfully fabricate compact and uniform cadmium telluride (CdTe) films on flexible nickel foils using simple electrodeposition technique and sintering in a nitrogen atmosphere. The effect of the concentration of sodium tartrate on the structures and properties of the deposited CdTe thin films are studied. Various test techniques are used to characterize the results. The results of XRD analysis show that the highest crystallinity film is obtained when the added sodium tartrate concentration is 0.05 M. With the increase of sodium tartrate concentration, the composition of the film gradually changes from Te-rich to Cd-rich, and the thickness of the film becomes thin gradually. We also find that the CdTe thin film prepared under 0.05 M sodium tartrate shows the best optical and optoelectronic properties. Thus, a moderate amount of sodium tartrate is added into an acidic solution as surfactant for CdTe thin film fabrication. Moreover, sodium tartrate is easily volatilized from the film during the annealing process because of its small molecular weight, which can prevent the carbon precipitation.
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46

Shen, Jiazhong, Huaizhong Xing, Lin Wang, Zhen Hu, Libo Zhang, Xueyan Wang, Zhiqingzi Chen, et al. "A van der Waals heterostructure based on nickel telluride and graphene with spontaneous high-frequency photoresponse." Applied Physics Letters 120, no. 6 (February 7, 2022): 063501. http://dx.doi.org/10.1063/5.0082574.

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47

Malik, M. Suleman, and C. A. Hogarth. "Some effects of substituted cobalt and nickel oxides on the infrared spectra of copper tellurite glasses." Journal of Materials Science Letters 8, no. 6 (June 1989): 649–51. http://dx.doi.org/10.1007/bf01730431.

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48

Kalinin, Arkadii A. "Tellurium and Selenium Mineralogy of Gold Deposits in Northern Fennoscandia." Minerals 11, no. 6 (May 27, 2021): 574. http://dx.doi.org/10.3390/min11060574.

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Mineralization of Te and Se was found in gold deposits and uranium occurrences, located in the Paleoproterozoic greenstone belts in Northern Fennoscandia. These deposits are of different genesis, but all of them formed at the late stages of the Svecofennian orogeny, and they have common geochemical association of metals Au, Cu, Co, U, Bi, Te, and Se. The prevalent Te minerals are Ni and Fe tellurides melonite and frohbergite, and Pb telluride altaite. Bismuth tellurides were detected in many deposits in the region, but usually not more than in two–three grains. The main selenide in the studied deposits is clausthalite. The most diversified selenium mineralization (clausthalite, klockmannite, kawazulite, skippenite, poubaite) was discovered in the deposits, located in the Russian part of the Salla-Kuolajarvi belt. Consecutive change of sulfides by tellurides, then by selenotellurides and later by selenides, indicates increase of selenium fugacity, fSe2, in relation to fTe2 and to fS2in the mineralizing fluids. Gold-, selenium-, and tellutium-rich fluids are potentially linked with the post-Svecofennian thermal event and intrusion of post-orogenic granites (1.79–1.75 Ga) in the Salla-Kuolajarvi and Perapohja belts. Study of fluid inclusions in quartz from the deposits in the Salla-Kuolajarvi belt showed that the fluids were high-temperature (240–300 °C) with high salinity (up to 26% NaCl-eq.). Composition of all studied selenotellurides, kawazulite-skippenite, and poubaite varies significantly in Se/Te ratio and in Pb content. Skippenite and kawazulite show the full range of Se-Te isomorphism. Ni-Co and Co-Fe substitution plays an important role in melonite and mattagamite: high cobalt was detected in nickel telluride in the Juomasuo and Konttiaho, and mattagamites from Ozernoe and Juomasuo contain significant Fe. In the Ozernoe uranium occurrence, the main mineral-concentrator of selenium is molybdenite, which contains up to 16 wt.% of Se in the marginal parts of the grains. The molybdenite is rich in Re (up to 1.2 wt.%), and the impurity of Re is irregularly distributed in molybdenite flakes and spherulites.
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49

Bastola, Ebin, Kamala Khanal Subedi, Khagendra P. Bhandari, and Randy J. Ellingson. "Solution-processed Nanocrystal Based Thin Films as Hole Transport Materials in Cadmium Telluride Photovoltaics." MRS Advances 3, no. 41 (2018): 2441–47. http://dx.doi.org/10.1557/adv.2018.349.

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ABSTRACTThe cadmium telluride (CdTe) photovoltaic (PV) comprise an efficient and cost-effective technology for harvesting solar energy. However, device efficiency remains limited in part by low-open circuit voltage (VOC) and fill factor (FF) due to inefficient transport of photo-generated charge carriers. Given the deep valence band of CdTe, the use of copper/gold (Cu/Au) as a back contact serves primarily to narrow the width of the inherent Schottky junction evident in CdTe solar cells (in our laboratory, Cu/Au has been used as a standard back contact). For efficient transport of carriers to and into the back contact, a hole transport layer (HTL) is desired with valence band edge comparable to that of CdTe (∼ -5.9 eV). Here, we report solution-processed nanocrystal (NCs) based thin films as HTLs in CdTe solar cells. The earth abundant materials we discuss include iron pyrite (FeS2), nickel-alloyed iron pyrite (NixFe1-xS2), zinc copper sulfide (ZnxCu1-xS) nanocomposites, and perovskite-based films. The FeS2 and NixFe1-xS2 NCs are synthesized by a hot-injection route, and thin films are fabricated by drop-casting, and spin-coating techniques using colloidal NCs. ZnxCu1-xS thin films are fabricated by chemical bath deposition. These NC-based thin films are applied and studied as the HTLs in CdTe devices. On using these materials, the device performance can be increased up to 10% compared to the standard Cu/Au back contact. Here, we discuss the benefits, challenges, and opportunities for these back contact materials in CdTe photovoltaics.
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50

Shaybekov, R. I., B. A. Makeev, N. N. Kononkova, S. I. Isaenko, and E. M. Tropnikov. "Palladium tellurides and bismuthtellurides in sulfide copper-nickel ores of the Savabeisky ore occurrence (Nenets Autonomous District, Russsia)." LITHOSPHERE (Russia) 21, no. 4 (August 28, 2021): 574–94. http://dx.doi.org/10.24930/1681-9004-2021-21-4-574-594.

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Research subject. The Savabeisky sulfide copper-nickel ore occurrence, located in the central part of the Khengur (Central Pay-Khoy) gabbro-dolerite complex of the Pay-Khoy, within the Yugorsky Peninsula, located in the Far North-East of the European part of Russia, in the Arkhangelsk region, between the Barents and Kara Seas.Materials and methods. Samples of copper-nickel ores with noble metal mineralization were studied. Palladium tellurides and bismuthtellurides were characterized using optical and scanning electron microscopy, electron backscatter diffraction (EBSD), X-ray structural analysis and Raman spectroscopy.Results. Bismuthtellurides in the Paykhoysko-Vaigach-Yuzhnonovozemelskiy region – michenerite, merenskyite and unidentified palladium telluride of the kotulskite–merenskyite series with crystal formula Pd2(TeSbBi)3 – were found for the first time. The unit cell parameter of Pay-Khoy michenerite was calculated using X-ray diffraction analysis data: a = 6.638(2) Å. According to Raman spectroscopy, the palladium tellurides and bismuthtellurides of the Savabeisky ore occurrence were distinguished into 4 groups: Sb-kotulskite (does not contain Raman-active modes), unnamed PGM Pd2(TeSbBi)3 (bands in the range 95–103, 121–126 cm–1, obtained for the first time), Sb-merenskyite (band 126–135 cm–1), michenerite (bands with maxima 100 and 116 cm–1, obtained for the first time). The Kikuchi lines for michenerite and the mineral of the kotulskite–merenskyite series were obtained by the EBSD method.Conclusions. The diagnosis of palladium tellurides and bismuthtellurides is a rather complicated problem (wide variations in compositions, low hardness, small size, thin intergrowths of several individuals, the presence of impurities, etc.) affecting the determination of their mineral form and requiring an integrated approach. The Raman spectra of michenerite and unnamed PGM can be used as standards for the rapid identification of their natural forms, in contrast to EBSD, which requires improved sample preparation. The relatively high content of antimony in the ore minerals and noble metals minerals at the Savabeisky ore occurrence is the antimony metallogenic specificity characteristic of the entire Uralsko-Novozemelskiy province.
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