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Jun-Xian Gao1,2,Wen-Jie Tian2,Hua-Yang Zhang2(School of Environment and Civil Engineering,Jiangnan University;School of Chemical Engineering and Advanced Materials,The University of Adelaide).Progress of Nb-containing catalysts for carbon dioxide reduction:a minireview[J].Tungsten,2022,第4期
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Jie-Yu Chen1,2,Yun-Peng Zhou1,2,Fei Guo1,2,Zhe-Hong Tang1,2,Shi-Feng Zhao2(College of Science,Inner Mongolia University of Technology;Inner Mongolia Key Lab of Nanoscience and Nanotechnology,School of Physical Science and Technology,Inner Mongolia University).Lead-free Nb-based dielectric film capacitors for energy storage applications[J].Tungsten,2022,第4期
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Wen-Bin Li1,Kang Wu1,Hao Feng2,Ni Wang1,Jiang-Hua Zhang1,Jing-Jing Wang1,Xi-Fei Li1,3(Institute of Advanced Electrochemical Energy & School of Materials Science and Engineering,Xi'an University of Technology;Science and Technology on Combustion and Explosion Laboratory,Xi'an Modern Chemistry Research Institute;State Center for International Cooperation on Designer Low-Carbon and Environmental Materials (CDLCEM),Zhengzhou University).Atomic layer deposition of ultrafine Pd nanoparticles for enhancing the rate capability of LiNi0.8Co0.1Mn0.1O2 cathode[J].Tungsten,2022,第4期
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Jia-Bin Hou1,Ke Zhang1,Jin-Hua Xiao1,Zi-Qi Xu1,Wen-Jing Gao1,Xin-Yi Gao1,Si-Ke Zhou1,Ze-Zhou Jiao1,Meng-Ru Yi1,Yan-Hong Yin1,2,3,Zi-Ping Wu1(Faculty of Materials Metallurgy and Chemistry,Jiangxi University of Science and Technology;Chongyi Zhangyuan Tungsten Co.Ltd;Ganzhou Key Laboratory of Advanced Metals and Functional Materials).Modified tungsten oxide as a binder-free anode in lithium-ion battery for improving electrochemical stability[J].Tungsten,2022,第4期
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Yi-Tian Wang,Xi Chen(Department of Electrical and Computer Engineering,University of California).Single crystal growth and electrochemical studies of garnet-type fast Li-ion conductors[J].Tungsten,2022,第4期
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Ning Yuan1,Yi-Rui Deng1,Shan-Hu Wang1,Li Gao2,Jin-Lin Yang3,Na-Chuan Zou1,Bing-Xin Liu2,Jun-Qing Zhang4,Rui-Ping Liu1,Lei Zhang4(School of Chemical and Environmental Engineering,China University of Mining and Technology (Beijing);School of Mechanical Engineering,Qinghai University;School of Materials Science and Engineering,Tsinghua University;Department of Mechanical Engineering,University of Alaska Fairbanks).Towards superior lithium–sulfur batteries with metal–organic frameworks and their derivatives[J].Tungsten,2022,第4期
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Kun-Qi Geng1,Meng-Qian Yang1,Jun-Xia Meng2,Ling-Fei Zhou1,Yu-Qin Wang1,Sydorov Dmytro1,Qian Zhang1,Sheng-Wen Zhong1,Quan-Xin Ma1(Key Laboratory of Power Battery and Materials,Faculty of Materials Metallurgy and Chemistry,Jiangxi University of Science and Technology;School of Physics and Electronics,Gannan Normal University).Engineering layered/spinel heterostructure via molybdenum doping towards highly stable Li-rich cathodes[J].Tungsten,2022,第4期
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Si-Yu Liu1,2,Yu-Huan Zhou1,3,Yi-Bin Zhang1,4,Sheng-Jie Xia1,Ying Li1,5,Xin Zhou1,3,Bao Qiu1,Guang-Jie Shao2,Zhao-Ping Liu1(Ningbo Institute of Materials Technology and Engineering,Chinese Academy of Sciences;College of Environmental and Chemical Engineering,State Key Laboratory of Metastable Materials Science and Technology,Yanshan University;University of Chinese Academy of Sciences;Science and Chemical Engineering,Ningbo University;College of Chemical Engineering,Zhejiang University of Technology).Surface yttrium-doping induced by element segregation to suppress oxygen release in Li-rich layered oxide cathodes[J].Tungsten,2022,第4期
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Bin Yang,· Yu-Tao Li.Correction to:Preface to the special issue on energy conversionand storage materials[J].Tungsten,2022,第4期
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Yi-Jie Liu,Ru-Yi Fang,David Mitlin(Materials Science and Engineering Program and Texas Materials Institute,The University of Texas at Austin).NASICON solid electrolyte coated by indium film for all-solid-state Li-metal batteries[J].Tungsten,2022,第4期
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Chi Wang1,2,Bao-Long Ji1,2,Shou-Xi Gu1,2,Qiang Qi1,Lei Chen1,Hai-Shan Zhou1,2,Song-Lin Liu1,2,Guang-Nan Luo1,2(Hefei Institute of Physical Science,Chinese Academy of Sciences;University of Science and Technology of China).Recent research progress on the compatibility of tritium breeders with structural materials and coatings in fusion reactors[J].Tungsten,2022,第3期
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Yu-Zhong Jin1,Xiang Liu1,You-Yun Lian1,Jiu-Peng Song2(Southwestern Institute of Physics;Xiamen Tungsten Co.Ltd).Influence of recrystallization on tungsten divertor monoblock under high heat flux[J].Tungsten,2022,第3期
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Qiu Xu1,M.Miyamoto2,Lai-Ma Luo3(Institute for Integrated Radiation and Nuclear Science,Kyoto University;Shimane University;School of Materials Science and Engineering,Hefei University of Technology).Effects of Zr/Mo addition on He bubble formation in Y2O3-added W alloys[J].Tungsten,2022,第3期
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Te Zhu1,2,3,Zhi-Hong Zhong4,Koichi Sato5,Ya-Min Song2,Feng-Jiao Ye2,Qian-Qian Wang2,Ye Dong2,Peng Zhang2,Run-Sheng Yu2,Bao-Yi Wang2,Alfonso H.W.Ngan1,Xing-Zhong Cao2,Qiu Xu3(Department of Mechanical Engineering,The University of Hong Kong;Institute of High Energy Physics,Chinese Academy of Sciences;Institute for Integrated Radiation and Nuclear Science,Kyoto University;School of Materials Science and Engineering,Hefei University of Technology;Graduate School of Science and Engineering,Kagoshima University).Effects of hydrogen charging and deformation on tensile properties of a multi-component alloy for nuclear applications[J].Tungsten,2022,第3期
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Hao-Xuan Huang1,2,Yu-Hao Li1,2,Zhong-Zhu Li1,2,Peng-Wei Hou1,2,Fang-Fei Ma1,2,Qing-Yuan Ren1,2,Hong-Bo Zhou1,2,Guang-Hong Lu1,2(Department of Physics,Beihang University;Beijing Key Laboratory of Advanced Nuclear Materials and Physics,Beihang University).Role of hydrogen in stability and mobility of vacancy clusters in tungsten[J].Tungsten,2022,第3期
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Xiang-Shan Kong1,2,Chi Song3,Liang Chen1,Zhuo-Ming Xie2,Chang-Song Liu2,Jie Hou4(Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials,Ministry of Education,Shandong University;Key Laboratory of Materials Physics,Institute of Solid State Physics,Chinese Academy of Sciences;College of Science,Jinling Institute of Technology;Department of Mining and Materials Engineering,McGill University).First-principles study of substitutional solute and carbon interactions in tungsten[J].Tungsten,2022,第3期
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Hua-Qing Guan,Yan-Mei Jing,Shao-Song Huang(Key Laboratory of Material Modification by Laser,Ion and Electron Beams (Dalian University of Technology),Ministry of Education).Atomic study of hydrogen behaviors at ∑3(111) grain boundary in equiatomic CoCrNi and CoCrNiFe alloys[J].Tungsten,2022,第3期
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Xiao-Ou Yi1,Tatsuya Kuwabara2,Vladimir Kh. Alimov3,Yu-Feng Du4,Wen-Tuo Han1,Ping-Ping Liu1,Bin-You Yan5,Jiu-Peng Song6,Kenta Yoshida4,Takeshi Toyama4,Fa-Rong Wan1,Somei Ohnuki1,Yuji Hatano7,Yasuyoshi Nagai4(School of Materials Science and Engineering,University of Science and Technology Beijing;Graduate School of Engineering,Nagoya University;Frumkin Institute of Physical Chemistry and Electrochemistry,Russian Academy of Sciences;Institute for Materials Research,Tohoku University;Xiamen Tungsten Co.Ltd.;School of Materials Science and Engineering,Xihua University;Hydrogen Isotope Research Center,University of Toyama).Microstructure,hardening and deuterium retention in CVD tungsten irradiated with neutrons at temperatures of defect recovery stages Ⅱ and Ⅲ[J].Tungsten,2022,第3期
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Jacob A.R.Wright(Department of Materials Science and Metallurgy,University of Cambridge).A review of late-stage tungsten fuzz growth[J].Tungsten,2022,第3期
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Guang-Hong Lu(School of Physics,Beihang University).Preface to the special issue on Advanced Nuclear Materials[J].Tungsten,2022,第3期
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Zheng-Yi Liu1,Yu-Diao Lin1,Hao-Yu1,Hui-Na Chen1,Zheng-Wei Guo1,Xin-Xiong Li1,2,Shou-Tian Zheng1(State Key Laboratory of Photocatalysis on Energy and Environment,College of Chemistry,Fuzhou University;State Key Laboratory of Structural Chemistry,Fujian Institute of Research on the Structure of Matter,Chinese Academy of Science).Recent advances in polyoxoniobate-catalyzed reactions[J].Tungsten,2022,第2期
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Wen-Jing Cui,Si-Meng Zhang,Ze-Yu Tian,Chen Li,Yi-Meng Wang,Bo-Rong Yu,Yuan-Yuan Ma,Zhan-Gang Han(Hebei Key Laboratory of Organic Functional Molecules,National Demonstration Center for Experimental Chemistry Education,College of Chemistry and Materials Science,Hebei Normal University).Hydrogen bond-mediated polyoxometalate-based metal-organic networks for effcient and selective oxidation of aryl alkenes to aldehydes[J].Tungsten,2022,第2期
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Meng Zhao1,2,Xi-Yu Zhu1,Yan-Zhen Li3,Jiang-Nan Chang1,Ming-Xue Li1,Li-Hua Ma1,Xiao-Yuan Guo1(Henan Key Laboratory of Polyoxometalate Chemistry,Institute of Molecular and Crystal Engineering,School of Chemistry and Chemical Engineering,Henan University;Agricultural Products' Quality and Safety Testing Center of Kaifeng,Kaifeng Agriculture and Rural Bureau;Agricultural Products' Quality and Safety Testing Center of Kaifeng,Kaifeng Agriculture and Rural Bureau).A Lindqvist-type [W6O19]2- organic–inorganic compound:synthesis, characterization, antibacterial activity and preliminary studies on the mechanism of action[J].Tungsten,2022,第2期
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Wan-Yu Zhang,Ying Lu,Zhuo Li,Yang Wang,Xiu-Wei Sun,Qian Wang,Zhong Zhang,Shu-Xia Liu(Key Laboratory of Polyoxometalate and Reticular Material Chemistry of Ministry of Education,College of Chemistry,Northeast Normal University).Incorporation of polyoxometalate-based acid–base pair into a sulfonated MIL-101 for achieving proton-conduction materials with high proton conductivity and high stability[J].Tungsten,2022,第2期
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Ming-Yue Chu1,Jia Jiao1,Wei Zhu1,Xin Yang2,Ting-Ting Yu2,Gui-Xin Yang1,Hui-Yuan Ma1(School of Material Science and Chemical Engineering,Harbin University of Science and Technology;College of Chemical Engineering,Harbin Institute of Petroleum).A polyoxometalate based electrochemical sensor for effcient detection of L-cysteine[J].Tungsten,2022,第2期
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Ke Li1,Xiao-Ling Lin1,Kai Zeng1,Xiao-Fei Gao1,Wei Cen2,Yu-Feng Liu1,Guo-Ping Yang1(Jiangxi Key Laboratory for Mass Spectrometry and Instrumentation,Jiangxi Province Key Laboratory of Synthetic Chemistry,East China University of Technology;Russia School of Social and Human Sciences-International Relations,Tyumen State University).Effect of Na(Ⅰ)-H2O clusters on self-assembly of sandwich-type U(Ⅵ)-containing silicotungstates and the effcient catalytic activity for the synthesis of substituted phenylsulfonyl-1H-pyrazoles[J].Tungsten,2022,第2期
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Wei-Xin Du1,Meng-Yuan Cheng1,Ke Li2,Ya-Chun Ma1,Jing-Wen Shi1,Dong-Di Zhang1(Henan Key Laboratory of Polyoxometalate Chemistry,College of Chemistry and Chemical Engineering,Henan University;Jiangxi Province Key Laboratory of Synthetic Chemistry,Jiangxi Key Laboratory for Mass Spectrometry and Instrumentation,East China University of Technology).Insight into hexanuclear peroxotantalum complexes:synthesis, characterization, and effcient catalyst for amidation reaction[J].Tungsten,2022,第2期
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