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1. Full Text Iron‐Based Supercapacitor Electrodes: Advances and Challenges
by Zeng, Yinxiang and Yu, Minghao and Meng, Yue and Fang, Pingping and Lu, Xihong and Tong, Yexiang
Advanced energy materials, ISSN 1614-6832, 12/2016, Volume 6, Issue 24, pp. 1601053 - n/a
challenges | supercapacitors | advances | ion‐based materials | ion-based materials | Physical Sciences | Chemistry | Materials Science | Technology | Materials Science, Multidisciplinary | Physics, Condensed Matter | Chemistry, Physical | Energy & Fuels | Physics | Science & Technology | Physics, Applied | Electrodes | Capacitors | Metal oxides | Electrode materials | Supercapacitors | Electronics | Instability | Nanostructure | Iron oxides
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2. Full Text Negative electrodes for Na-ion batteries
by Dahbi, Mouad and Yabuuchi, Naoaki and Kubota, Kei and Tokiwa, Kazuyasu and Komaba, Shinichi
Physical chemistry chemical physics : PCCP, ISSN 1463-9076, 08/2014, Volume 16, Issue 29, pp. 15007 - 15028
Physical Sciences | Chemistry | Physics, Atomic, Molecular & Chemical | Chemistry, Physical | Physics | Science & Technology
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3. Full Text Reactions at the electrode/electrolyte interface of all-solid-state lithium batteries incorporating Li–M (M=Sn, Si) alloy electrodes and sulfide-based solid electrolytes
by Sakuma, Masamitsu and Suzuki, Kota and Hirayama, Masaaki and Kanno, Ryoji
Solid state ionics, ISSN 0167-2738, 02/2016, Volume 285, pp. 101 - 105
Electrolyte decomposition | Interface resistance | Sulfide-based solid electrolyte | Electrodes | Lithium cells | Sulfides | Electrolytes | Alloys | Electric properties | Usage | X-ray spectroscopy | X-rays | Lithium batteries | Formations | Solid electrolytes | Electrode potentials | Tin base alloys
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4. Full Text Nickel–Cobalt Layered Double Hydroxide Nanosheets for High‐performance Supercapacitor Electrode Materials
by Chen, Hao and Hu, Linfeng and Chen, Min and Yan, Yan and Wu, Limin
Advanced functional materials, ISSN 1616-301X, 02/2014, Volume 24, Issue 7, pp. 934 - 942
hydroxides | electrodes | reduced graphene oxide | nickel–cobalt | hydrothermal processes | supercapacitors | nanosheets | nickel-cobalt | 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 | Nickel | Hydroxides | Graphene | Capacitors | Cobalt | Electrode materials | Asymmetry | Supercapacitors | Energy density | Nanostructure
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5. Full Text Lithium-ion capacitors using carbide-derived carbon as the positive electrode – A comparison of cells with graphite and Li4Ti5O12 as the negative electrode
by Rauhala, Taina and Leis, Jaan and Kallio, Tanja and Vuorilehto, Kai
Journal of power sources, ISSN 0378-7753, 11/2016, Volume 331, pp. 156 - 166
Lithium-ion capacitor | Lithium titanate | Hybrid supercapacitor | Asymmetric capacitor | Graphite | Carbide-derived carbon | Physical Sciences | Chemistry | Materials Science | Technology | Materials Science, Multidisciplinary | Electrochemistry | Chemistry, Physical | Energy & Fuels | Science & Technology
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6. Full Text A high-performance asymmetric supercapacitor based on carbon and carbon–MnO2 nanofiber electrodes
by Wang, Jian-Gan and Yang, Ying and Huang, Zheng-Hong and Kang, Feiyu
Carbon (New York), ISSN 0008-6223, 09/2013, Volume 61, pp. 190 - 199
Physical Sciences | Chemistry | Materials Science | Technology | Materials Science, Multidisciplinary | Chemistry, Physical | Science & Technology | Surface physical chemistry | Electrochemistry | General and physical chemistry | Exact sciences and technology | Adsorbents
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7. Full Text Oxygen‐Deficient Hematite Nanorods as High‐Performance and Novel Negative Electrodes for Flexible Asymmetric Supercapacitors
by Lu, Xihong and Zeng, Yinxiang and Yu, Minghao and Zhai, Teng and Liang, Chaolun and Xie, Shilei and Balogun, Muhammad‐Sadeeq and Tong, Yexiang
Advanced materials (Weinheim), ISSN 0935-9648, 05/2014, Volume 26, Issue 19, pp. 3148 - 3155
oxygen‐deficient materials | hematite | nanorods | supercapacitors | electrode materials | oxygen-deficient materials | 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 | Hematite | Capacitors | Electrodes | Charging | Asymmetry | Supercapacitors | Light-emitting diodes | Devices | Nanorods
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8. Full Text Group IVA Element (Si, Ge, Sn)‐Based Alloying/Dealloying Anodes as Negative Electrodes for Full‐Cell Lithium‐Ion Batteries
by Liu, Dequan and Liu, Zheng jiao and Li, Xiuwan and Xie, Wenhe and Wang, Qi and Liu, Qiming and Fu, Yujun and He, Deyan
Small (Weinheim an der Bergstrasse, Germany), ISSN 1613-6810, 12/2017, Volume 13, Issue 45, pp. 1702000 - n/a
full‐cell lithium‐ion batteries | alloying/dealloying anodes | Group IVA elements | full-cell lithium-ion batteries | Thin films | Electrodes | Usage | Electrochemistry | Electric vehicles | Electrolytes | Dielectric films | Batteries | Computer storage devices | Electrochemical analysis | Lithium | Dealloying | Storage batteries | Rechargeable batteries | Lithium-ion batteries | Alloying elements | Silicon base alloys | Germanium | Solid electrolytes | Portable equipment | Anodes | Gravimetry | Energy storage
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