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二元碳酸熔盐在氧化镍表面热物性的 分子动力学模拟.
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- Acta Scientiarum Naturalium Universitatis Sunyatseni / Zhongshan Daxue Xuebao, 2024, v. 63, n. 4, p. 141, doi. 10.13471/j.cnki.acta.snus.ZR20240051
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Synthesis and characterization of plate-like vanadium doped SrBi<sub>4</sub>Ti<sub>4</sub>O<sub>15</sub> prepared via KCl molten salt method.
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- Communications in Science & Technology, 2022, v. 7, n. 2, p. 175, doi. 10.21924/cst.7.2.2022.940
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Electrochemical monitoring of lanthanum ion concentration in high-temperature molten salt.
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- Journal of Solid State Electrochemistry, 2024, v. 28, n. 10, p. 3643, doi. 10.1007/s10008-024-05957-9
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Molten salt synthesis of cobalt-based electrodes: investigating the effect of the salt on phase, morphology, and electrochemical properties.
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- Journal of Solid State Electrochemistry, 2024, v. 28, n. 10, p. 3577, doi. 10.1007/s10008-024-05945-z
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The effect of synthesis temperature on structural, morphological, and band gap energy of plate-like Bi<sub>4</sub>Ti<sub>2.95</sub>V<sub>0.05</sub>O<sub>12</sub> prepared by molten NaCl/KCl salt method.
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- Communications in Science & Technology, 2024, v. 9, n. 1, p. 1, doi. 10.21924/cst.9.1.2024.1279
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Catalytic Activity Evaluation of the Molten Salt-Modified Novel Ni Electrodes for Urea Electrooxidation in Alkaline Solutions.
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- Metals (2075-4701), 2024, v. 14, n. 8, p. 904, doi. 10.3390/met14080904
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Effect of Si Addition in NiCrAl Coating on Corrosion in Molten Nitrate Salt.
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- Metals (2075-4701), 2024, v. 14, n. 8, p. 902, doi. 10.3390/met14080902
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Pressurized Regenerative Calcium Cycle for Utility-Scale Energy Storage: A Techno-Economic Assessment.
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- Processes, 2024, v. 12, n. 8, p. 1778, doi. 10.3390/pr12081778
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Nano-based molten inorganic salts.
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- Tribology & Lubrication Technology, 2017, v. 73, n. 5, p. 16
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Use of the ionic liquid 1-butyl-3-methylimidazolium hexafluorophosphate in countercurrent chromatography.
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- Analytical & Bioanalytical Chemistry, 2004, v. 380, n. 1, p. 168, doi. 10.1007/s00216-004-2717-8
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Morphology and magnetic properties of NiFe<sub>2</sub>O<sub>4</sub> powders prepared in molten sodium chloride.
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- Materialwissenschaft und Werkstoffechnik, 2021, v. 52, n. 6, p. 677, doi. 10.1002/mawe.202000334
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Effects of chloride ions on electrochemical reaction of 316 stainless steel in mixtures of molten nitrate salts.
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- Materialwissenschaft und Werkstoffechnik, 2020, v. 51, n. 8, p. 1161, doi. 10.1002/mawe.201900016
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Coloration and structure behavior after silver and copper nanoparticles formation in soda lime glass.
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- Materialwissenschaft und Werkstoffechnik, 2017, v. 48, n. 11, p. 1166, doi. 10.1002/mawe.201600754
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Spectroelectrochemistry of EuCl<sub>3</sub> in Four Molten Salt Eutectics; 3 LiCl−NaCl, 3 LiCl−2 KCl, LiCl−RbCl, and 3 LiCl−2 CsCl; at 873 K.
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- Electroanalysis, 2016, v. 28, n. 9, p. 2158, doi. 10.1002/elan.201600048
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Mass Transfer Modeling of CsCl During Crystallization of Molten LiCl‐KCl‐CsCl Salt Mixture.
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- Chemical Engineering & Technology, 2024, v. 47, n. 8, p. 1061, doi. 10.1002/ceat.202300507
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Multiphysics Model of a Fluorine Electrolysis Cell.
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- Chemical Engineering & Technology, 2017, v. 40, n. 5, p. 854, doi. 10.1002/ceat.201600591
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Group Contribution Methods for Estimation of Ionic Liquid Heat Capacities: Critical Evaluation and Extension.
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- Chemical Engineering & Technology, 2015, v. 38, n. 4, p. 632, doi. 10.1002/ceat.201400667
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Molten‐Salt‐Mediated Synthesis of an Atomic Nickel Co‐catalyst on TiO<sub>2</sub> for Improved Photocatalytic H<sub>2</sub> Evolution.
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- Angewandte Chemie, 2020, v. 132, n. 18, p. 7297, doi. 10.1002/ange.202001148
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- Article
Low‐Temperature Synthesis of Honeycomb CuP<sub>2</sub>@C in Molten ZnCl<sub>2</sub> Salt for High‐Performance Lithium Ion Batteries.
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- Angewandte Chemie, 2020, v. 132, n. 5, p. 1991, doi. 10.1002/ange.201910474
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A Peapod‐like CoP@C Nanostructure from Phosphorization in a Low‐Temperature Molten Salt for High‐Performance Lithium‐Ion Batteries.
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- Angewandte Chemie, 2018, v. 130, n. 32, p. 10344, doi. 10.1002/ange.201805468
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Low-Temperature Molten-Salt Production of Silicon Nanowires by the Electrochemical Reduction of CaSiO<sub>3</sub>.
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- Angewandte Chemie, 2017, v. 129, n. 46, p. 14645, doi. 10.1002/ange.201707064
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Integrated In Situ Characterization of a Molten Salt Catalyst Surface: Evidence of Sodium Peroxide and Hydroxyl Radical Formation.
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- Angewandte Chemie, 2017, v. 129, n. 35, p. 10539, doi. 10.1002/ange.201704758
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Schinortriterpenoide: eine Fallstudie in Synthesedesign.
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- Angewandte Chemie, 2017, v. 129, n. 7, p. 1728, doi. 10.1002/ange.201609372
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Electrochemically Driven Transformation of Amorphous Carbons to Crystalline Graphite Nanoflakes: A Facile and Mild Graphitization Method.
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- Angewandte Chemie, 2017, v. 129, n. 7, p. 1777, doi. 10.1002/ange.201609565
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Lithium Germanate (Li<sub>2</sub>GeO<sub>3</sub>): A High-Performance Anode Material for Lithium-Ion Batteries.
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- Angewandte Chemie, 2016, v. 128, n. 52, p. 16293, doi. 10.1002/ange.201609343
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Preparation of Nanocrystalline Silicon from SiCl<sub>4</sub> at 200 °C in Molten Salt for High-Performance Anodes for Lithium Ion Batteries.
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- Angewandte Chemie, 2015, v. 127, n. 12, p. 3893, doi. 10.1002/ange.201411830
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High‐Temperature Oxidation Behavior of Hastelloy N Alloy for Molten Salt Reactor at 650–980 °C.
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- Advanced Engineering Materials, 2024, v. 26, n. 16, p. 1, doi. 10.1002/adem.202400699
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Effect of Additive Manufacturing on β‐Phase Poly(Vinylidene Fluoride)‐Based Capacitive Temperature Sensors.
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- Advanced Engineering Materials, 2022, v. 24, n. 11, p. 1, doi. 10.1002/adem.202200485
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Synthetic Biofuels by Molten‐Salt Catalytic Conversion: Corrosion of Structural Materials in Ternary Molten Chlorides.
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- Advanced Engineering Materials, 2022, v. 24, n. 7, p. 1, doi. 10.1002/adem.202101453
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Comparative Life Cycle Assessment of Neodymium Oxide Electrolysis in Molten Salt.
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- Advanced Engineering Materials, 2020, v. 22, n. 6, p. 1, doi. 10.1002/adem.201901206
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Molten Salt Electrochemical Synthesis of Ternary Carbide Ti<sub>3</sub>AlC<sub>2</sub> from Titanium‐Rich Slag.
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- Advanced Engineering Materials, 2020, v. 22, n. 5, p. 1, doi. 10.1002/adem.201901300
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Preparation and characterization of ZnTiO micro/nano crystals by molten salt method.
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- Journal of Materials Science: Materials in Electronics, 2016, v. 27, n. 12, p. 13266, doi. 10.1007/s10854-016-5474-5
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Comparison of upconversion luminescent properties and temperature sensing behaviors of β-NaYF:Yb/Er nano/microcrystals prepared by various synthetic methods.
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- Journal of Materials Science: Materials in Electronics, 2016, v. 27, n. 8, p. 8254, doi. 10.1007/s10854-016-4832-7
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Molten salt synthesis of (Zn, Mg) TiO micro/nano crystals with pure hexagonal ilmenite structure.
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- Journal of Materials Science: Materials in Electronics, 2016, v. 27, n. 8, p. 8319, doi. 10.1007/s10854-016-4840-7
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Molten salt synthesis of doped nanocrystalline ZnO powders and applications in varistor ceramics.
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- Journal of Materials Science: Materials in Electronics, 2016, v. 27, n. 4, p. 3704, doi. 10.1007/s10854-015-4211-9
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Effects of molten salt content and reaction temperature on molten salt preparation of CaNaBiNbO powder.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 8, p. 6189, doi. 10.1007/s10854-015-3201-2
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Molten salt synthesis and tunable photoluminescent properties of Eu-Tb doped NaY(MoO) microcrystals.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 5, p. 2987, doi. 10.1007/s10854-015-2787-8
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Influence of alkali metal compound fluxes on GdOS:Tb particle and luminescence.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 3, p. 1982, doi. 10.1007/s10854-014-2638-z
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Preparation of cubic NaSrNbO particles by molten salt synthesis.
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- Journal of Materials Science: Materials in Electronics, 2015, v. 26, n. 2, p. 1136, doi. 10.1007/s10854-014-2517-7
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Preparation, characterization and microwave absorption properties of bamboo-like β-SiC nanowhiskers by molten-salt synthesis.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 12, p. 5302, doi. 10.1007/s10854-014-2305-4
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Influence of samarium doping on structural and dielectric properties of strontium bismuth tantalate ceramics derived by molten salt synthesis route.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 11, p. 4943, doi. 10.1007/s10854-014-2255-x
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Morphology and photoluminescence properties of KSm(MoO) microcrystals by a molten salt method.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 8, p. 3608, doi. 10.1007/s10854-014-2063-3
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Molten salt synthesis, characterization, and luminescence of SrWO, SrWO:Tb and SrWO:Eu powders.
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- Journal of Materials Science: Materials in Electronics, 2014, v. 25, n. 5, p. 2320, doi. 10.1007/s10854-014-1878-2
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Molten salt synthesis and photoluminescence properties of novel red emitting phosphors Ba<sub>5</sub>(VO<sub>4</sub>)<sub>3</sub>Cl:Eu<sup>3+</sup>,K<sup>+</sup>.
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- Journal of Materials Science: Materials in Electronics, 2013, v. 24, n. 12, p. 5111, doi. 10.1007/s10854-013-1531-5
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Molten salt synthesis and luminescence properties of BiSiO powders.
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- Journal of Materials Science: Materials in Electronics, 2013, v. 24, n. 2, p. 814, doi. 10.1007/s10854-012-0822-6
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BiSiO nanosheets prepared by molten salt method.
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- Journal of Materials Science: Materials in Electronics, 2012, v. 23, n. 9, p. 1770, doi. 10.1007/s10854-012-0660-6
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Decomposition behavior and dielectric properties of Ti-doped BiFeO ceramics derived from molten salt method.
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- Journal of Materials Science: Materials in Electronics, 2012, v. 23, n. 8, p. 1533, doi. 10.1007/s10854-012-0624-x
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Synthesis and dielectric properties of BiFeO derived from molten salt method.
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- Journal of Materials Science: Materials in Electronics, 2012, v. 23, n. 5, p. 990, doi. 10.1007/s10854-011-0533-4
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Formation behaviors of Sr<sub>0.4</sub>Ba<sub>0.6</sub>Nb<sub>2</sub>O<sub>6</sub> powders synthesized from the molten salt of KCI.
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- Journal of Materials Science Letters, 2003, v. 22, n. 13, p. 949, doi. 10.1023/A:1024636108554
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Rod-like and spherical cellulose I and II nanocrystals prepared through acidified lithium bromide molten salt hydrate treatment.
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- Cellulose, 2023, v. 30, n. 17, p. 10935, doi. 10.1007/s10570-023-05567-0
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