Chang Su
9 Papers
Chang Su is an academic researcher. The author has contributed to research in topics: Chemistry & Electrochemistry. The author has an hindex of 2, co-authored 7 publications.
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Papers
Recent Advances in Carbon-based Nanomaterial for Multivalent-ion Hybrid Capacitors: A review
Xuan P. A. Gao,Haoyu Wu,Chang Su,Chuanming Lu,Yuhang Dai,Siyu Zhao,Xueying Hu,Fangjia Zhao,Wei Zhang,Ivan P. Parkin,Claire J. Carmalt,Guanjie He +11 more
TL;DR: Hybrid capacitors are emerging because of their ability to store large amounts of energy, cycle through charges quickly, and maintain stability even in harsh environments or extreme temperatures as discussed by the authors , and they have been shown to be useful in many applications.
Multifunctional Polyzwitterion Ionic Liquid Coating for Long-Lifespan and Dendrite-Free Zn Metal Anodes
Yan-Yan Lv,Ying Xiao,Shuting Xu,Fengshu Huo,Yong Chen,Ming Zhao,Lili Liu,Chang Su,Yanli Zhu,Shimou Chen +9 more
TL;DR: Aqueous Zinc (Zn) metal batteries have received widespread attention due to their high safety and environmental friendliness, however, the uncontrollable growth of dendrites, hydrogen evolution reaction, and corrosion severely limit their lifetime as discussed by the authors .
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Study on the influence of Cu/F dual-doping on the Fe–Mn based compound as cathode material for sodium ion batteries
Yixuan Zhang,Guoqiang Liu,Chang Su,Guangyin Liu,Hongda Sun,Danlei Qiao,Lei Wen +6 more
TL;DR: In this article , the performance of Fe-Mn-based oxides as cathode for sodium ion batteries by doping Cu and F elements was investigated and it was found that F/Cu co-substitution obviously improved the discharge capacity and cycle stability of Fe−Mn based oxide especially at higher current densities.
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A new synthesis route of high-performance P′2-Na0.67Fe0.1Mn0.9O2-δ and its sodium storage properties for sodium-ion batteries
Chang Su,Guoqiang Liu,Lei Wen +2 more
TL;DR: In this paper , the effect of oxygen vacancies on the structural evolution of the material during charge-discharge processes is further investigated by in-situ X-ray diffraction (XRD) techniques.
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Fabrication of multi‐pore structure Cu, N‐codoped porous carbon‐based catalyst and its oxygen reduction reaction catalytic performance for microbial fuel cell
TL;DR: In this paper , an efficient and stable Cu, N-codoped porous carbons catalysts with multi-pore structure for cathode ORR was developed by co-pyrolysis with MOF-199 and melamine.
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