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1. Full Text Formation of Double‐Shelled Zinc–Cobalt Sulfide Dodecahedral Cages from Bimetallic Zeolitic Imidazolate Frameworks for Hybrid Supercapacitors
by Zhang, Peng and Guan, Bu Yuan and Yu, Le and Lou, Xiong Wen (David)
Angewandte Chemie (International ed.), ISSN 1433-7851, 06/2017, Volume 56, Issue 25, pp. 7141 - 7145
hybrid supercapacitors | double-shelled structures | zeolitic imidazolate frameworks | zinc–cobalt sulfide | double-shelled structures | Physical Sciences | Chemistry | Chemistry, Multidisciplinary | Science & Technology | Zinc compounds | Sulfides | Batteries | Capacitors | Cobalt | Sulfide | Construction | Battery cycles | Supercapacitors | Etching | Cages | Sulfurization | Chemical etching | Zinc | Bimetals | Capacitance | Coordination compounds | Chemical synthesis | Metal-organic frameworks | Yolk
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2. Full Text Two-Dimensional, Porous Nickel–Cobalt Sulfide for High-Performance Asymmetric Supercapacitors
by Li, Xiaoming and Li, Qiguang and Wu, Ye and Rui, Muchen and Zeng, Haibo
ACS applied materials & interfaces, ISSN 1944-8244, 09/2015, Volume 7, Issue 34, pp. 19316 - 19323
ultrathin nanosheets | crystallinity | nickel-cobalt sulfide | self-doping | asymmetric supercapaitors | Science & Technology - Other Topics | Materials Science | Nanoscience & Nanotechnology | Technology | Materials Science, Multidisciplinary | Science & Technology
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3. Full Text Hierarchical manganese cobalt sulfide core–shell nanostructures for high-performance asymmetric supercapacitors
by Liu, Shude and Jun, Seong Chan
Journal of power sources, ISSN 0378-7753, 02/2017, Volume 342, pp. 629 - 637
Core–shell nanostructure | Supercapacitor | MnCo2S4 | Electrochemical behavior | MnCo | Physical Sciences | Chemistry | Materials Science | Technology | Materials Science, Multidisciplinary | Electrochemistry | Chemistry, Physical | Energy & Fuels | Science & Technology | Sulfides | Electrical conductivity | Graphene | Capacitors | Cobalt | Mechanical engineering | Electric properties | Electrochemical reactions
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4. Full Text When Cubic Cobalt Sulfide Meets Layered Molybdenum Disulfide: A Core–Shell System Toward Synergetic Electrocatalytic Water Splitting
by Zhu, Han and Zhang, Junfeng and Yanzhang, Ruoping and Du, Mingliang and Wang, Qingfa and Gao, Guohua and Wu, Jiandong and Wu, Guangming and Zhang, Ming and Liu, Bo and Yao, Juming and Zhang, Xiangwen
Advanced materials (Weinheim), ISSN 0935-9648, 08/2015, Volume 27, Issue 32, pp. 4752 - 4759
transition metal sulfide | synergetic effects | electrochemistry | water splitting | core–shell | core-shell | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Electrochemistry | Sulfides | Electrochemical reactions | Molybdenum compounds | Molybdenum | Design engineering | Water splitting | Carbon fibers | Molybdenum disulfide | Electrocatalysts | Evolution | Nanofibers
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5. Full Text Coupling Sub‐Nanometric Copper Clusters with Quasi‐Amorphous Cobalt Sulfide Yields Efficient and Robust Electrocatalysts for Water Splitting Reaction
by Liu, Yipu and Li, Qiuju and Si, Rui and Li, Guo‐Dong and Li, Wang and Liu, Da‐Peng and Wang, Dejun and Sun, Lei and Zhang, Yu and Zou, Xiaoxin
Advanced materials (Weinheim), ISSN 0935-9648, 04/2017, Volume 29, Issue 13, pp. 1606200 - n/a
water splitting | electrocatalysis | composite materials | energy | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Sulfides | Water splitting | Electrocatalysts | Clusters | Amorphous materials | Catalysis | Copper | Cobalt sulfide | Anodes | CATHODES | SULFIDES | ANODES | Cobalt | Foams | AMORPHOUS STRUCTURE | Robustness | Coupling | CATALYSTS | WATER
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6. Full Text Coupling cobalt sulfide nanosheets with cadmium sulfide nanoparticles for highly efficient visible-light-driven photocatalysis
by Zhang, Fan and Zhuang, Hua-Qiang and Song, Jie and Men, Yu-Long and Pan, Yun-Xiang and Yu, Shu-Hong
Applied catalysis. B, Environmental, ISSN 0926-3373, 06/2018, Volume 226, pp. 103 - 110
Two-dimensional nanosheets | Visible-light-driven photocatalysis | Cobalt sulfide | Charge separation flexibility | Engineering | Physical Sciences | Engineering, Chemical | Chemistry | Engineering, Environmental | Technology | Chemistry, Physical | Science & Technology | Cadmium | Separation | Electromagnetic absorption | Photocatalysis | Metals | Cadmium sulfides | Nanostructure | Cadmium sulfide | Chemical compounds | Cobalt | Nanoparticles | Thickness | Sulfides | Efficiency | Platinum | Light | Solar energy | Noble metals | Photocatalysts
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7. Full Text A Binder‐Free and Free‐Standing Cobalt Sulfide@Carbon Nanotube Cathode Material for Aluminum‐Ion Batteries
by Hu, Yuxiang and Ye, Delai and Luo, Bin and Hu, Han and Zhu, Xiaobo and Wang, Songcan and Li, Linlin and Peng, Shengjie and Wang, Lianzhou
Advanced materials (Weinheim), ISSN 0935-9648, 01/2018, Volume 30, Issue 2, pp. 1703824 - n/a
free‐standing | long‐term stability | binder‐free | cobalt sulfide@carbon nanotube composites | aluminum‐ion battery | long-term stability | free-standing | aluminum-ion battery | binder-free | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Sulfides | Batteries | Cobalt | Computer storage devices | Nanotubes | Stability | Aluminum | Carbon nanotubes | Aluminum-ion batteries | Storage batteries | Rechargeable batteries | Electrodes | Electrode materials | Flux density | Cobalt sulfide | Cathodes | Energy storage
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8. Full Text A Dendritic Nickel Cobalt Sulfide Nanostructure for Alkaline Battery Electrodes
by Li, Wenyao and Zhang, Bingjie and Lin, Runjia and Ho‐Kimura, SocMan and He, Guanjie and Zhou, Xiying and Hu, Junqing and Parkin, Ivan P
Advanced functional materials, ISSN 1616-301X, 06/2018, Volume 28, Issue 23, pp. 1705937 - n/a
dendritic nanostructures | rechargeable alkaline batteries | kinetic analysis | nickel cobalt sulfides | Materials Science | Materials Science, Multidisciplinary | Physics, Condensed Matter | Science & Technology - Other Topics | Chemistry, Physical | Physics | Science & Technology | Physics, Applied | Physical Sciences | Chemistry | Nanoscience & Nanotechnology | Technology | Chemistry, Multidisciplinary | Electrodes | Sulfides | Electrochemical reactions | Analysis | Nickel | Batteries | Cobalt | Electric properties | Electrode materials | Chemical reactions | Alkaline batteries | Nanostructure | Reaction mechanisms | Cobalt sulfide | Chemical synthesis | Current density | Dendritic structure | Electrons | Rechargeable batteries
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9. Full Text Oxygen‐Containing Amorphous Cobalt Sulfide Porous Nanocubes as High‐Activity Electrocatalysts for the Oxygen Evolution Reaction in an Alkaline/Neutral Medium
by Cai, Pingwei and Huang, Junheng and Chen, Junxiang and Wen, Zhenhai
Angewandte Chemie (International ed.), ISSN 1433-7851, 04/2017, Volume 56, Issue 17, pp. 4858 - 4861
porous nanocubes | water oxidation | electrocatalysis | oxygen incorporation | cobalt sulfide | Physical Sciences | Chemistry | Chemistry, Multidisciplinary | Science & Technology | Adsorption | Sulfides | Cobalt | Oxygen | Sulfide | Electrocatalysts | Ruthenium oxide | Chemical evolution
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