Shiqiang Cui, Jiangjiang Zhang, Shangze Fan, Xuteng Xing, Libo Deng, and Yongji Gong*,"SiOxCy Microspheres with Homogeneous Atom Distribution for a High-Performance Li-Ion Battery", Nano Letters 2022, 22, 23, 9559–9565. 22.
Customer ServiceVacancy manipulating of molybdenum carbide MXenes to enhance Faraday reaction for high performance lithium-ion batteries X Guo, C Wang, W Wang, Q Zhou, W Xu, P Zhang, S Wei, Y Cao, K Zhu, Nano Res. Energy 1, e9120026, 2022
Customer ServiceSnO 2 as Advanced Anode of Alkali‐Ion Batteries: Inhibiting Sn Coarsening by Crafting Robust Physical Barriers, Void Boundaries, and Heterophase Interfaces for
Customer ServiceAqueous redox flow batteries (ARFB) have been regarded as one of the most promising candidates due to the salient features of good safety, scalability, and operation flexibility. Zn-air RFBs, alkaline Zn/Fe RFBs and aqueous organic RFBs
Customer ServiceLarge-scale synthesis of SiOC composites for stable Li-ion battery anode and dendrite-free Li
Customer ServiceAqueous organic redox flow batteries are affected by short cycle life and low
Customer ServiceOur lab focuses on the research of advanced electrode materials for lithium/sodium/potassium ion batteries and their performance enhancement strategies and energy storage mechanisms, including transition metal carbonates/oxides/sulfides/fluorides/phosphides, tin, silicon, MOF and their homogenous composites with graphene, functional polymer
Customer ServiceOur lab focuses on the research of advanced electrode materials for lithium/sodium/potassium
Customer ServiceShiqiang Huang rp130607 Collaboration Map View Statistics Email Alert RSS Feed. Profile Other Profile Full Name. Shiqiang Huang. Main Affiliation. MATERIALS SCIENCE AND ENGINEERING . Faculty. COLLEGE OF DESIGN & ENG . Email. sqhuang@nus .sg . Publications All; Articles; Show/Hide filters
Customer ServiceSnO 2 as Advanced Anode of Alkali‐Ion Batteries: Inhibiting Sn Coarsening by Crafting Robust
Customer ServiceFocuses on the research of advanced electrode materials for lithium/sodium/potassium ion
Customer ServiceZinc-based redox flow battery is regarded as one of the most promising electricity storage systems for large-scale applications. However, dendrite growth and the formation of "dead zinc" of
Customer Serviceshiqiang wei. University of Science and Technology of China. Verified email at mail tc .cn. battery. Articles Cited by Public access Co-authors. Title. Sort . Sort by citations Sort by year Sort by title. Cited by. Cited by. Year; Achieving Efficient Alkaline Hydrogen Evolution Reaction over a Ni 5 P 4 Catalyst Incorporating Single‐Atomic Ru Sites. Q He, D Tian, H Jiang, D Cao, S Wei,
Customer ServiceLithium-Ion Batteries: Basics and Applications - Springer
Customer ServiceFocuses on the research of advanced electrode materials for lithium/sodium/potassium ion batteries and their performance enhancement strategies and energy storage mechanisms, including transition metal carbonates/oxides, tin, graphene and carbon-based composites, and has published 43 SCI papers with over 3100 citations (H-index 24, i10-index 35).
Customer Service@article{Yang2022AnAZ, title={An aqueous zinc‐ion battery working at −50°C enabled by low‐concentration perchlorate‐based chaotropic salt electrolyte}, author={Guoshen Yang and Jialei Huang and Xuhao Wan and Binbin Liu and Yachao Zhu and Jiawei Wang and Olivier Fontaine and Shiqiang Luo and Pritesh Hiralal and Yuzheng Guo and Hang Zhou
Customer ServiceAqueous redox flow batteries (ARFB) have been regarded as one of the most promising
Customer ServiceA universal CE compensation strategy is proposed for alkaline Zn/Fe flow batteries (AZIFBs) by triggering the oxygen evolution reaction (OER) on the cathodic side. The strategy effectively mitigates
Customer ServiceZinc-based redox flow batteries are regarded as one of the most promising electricity storage systems for large-scale applications. However, dendrite growth and the formation of "dead zinc" at zinc electrodes particularly
Customer ServiceWith [Fe(CN)6]4-/3- as catholyte and polysulfide as anolyte, a redox flow battery with a power density of 116 mW cm-2 at 220 mA cm-2 and an energy efficiency of 77.7% at 50 mA cm-2 has been attained, markedly superior to the reported ones. With the considerably improved performance, the polysulfide-[Fe(CN)6]4-/3- flow battery has been demonstrated to be a cost
Customer ServiceVacancy manipulating of molybdenum carbide MXenes to enhance Faraday reaction for high
Customer Service温州大学化学与材料工程学院,其前身为创办于1958年的温州师范学院化学系。学院现有化学、应用化学、材料科学与工程、化学工程与工艺等四个本科专业,并拥有化学一级学科硕士点、应用化学及化学课程与教学论硕士点。
Customer ServiceZinc-based redox flow batteries are regarded as one of the most promising electricity storage systems for large-scale applications. However, dendrite growth and the formation of "dead zinc" at zinc electrodes particularly at high current density and large areal capacity impede their long-term operation. Here, we report redox
Customer ServiceA thin flexible zinc battery enabled by simultaneously electro-depositing both electrodes in acetate electrolytes July 2023 Journal of Physics Conference Series 2552(1):012001
Customer ServiceAs a lithium ion battery anode, it delivers a high reversible capacity of 1442 mA h g-1 over 600 cycles at 800 mA g-1, and 65% the capacity originates from the gradually emerging interfacial
Customer ServiceShiqiang Luo Walid A. Daoud While energy shortage is always an issue, the impending exhaustion of fossil fuel sources makes it an ever increasingly pressing one.
Customer ServiceLarge-scale synthesis of SiOC composites for stable Li-ion battery anode and dendrite-free Li metal deposition
Customer ServiceAqueous organic redox flow batteries are affected by short cycle life and low capacity. Here, the authors develop composite dihydroxyanthraquinone/polymer anolytes capable of improving the...
Customer ServiceAlkaline zinc-iron flow batteries (AZIFBs) are well suited for energy storage because of their good safety, high cell voltage, and low cost. However, the occurrence of irreversible anodic parasitic reactions results in a diminished coulombic efficiency (CE), unbalanced charge state of catholyte/anolyte and subsequently, a poor cycling performance.
While the above results are promising, for alkaline Zn-based flow batteries, the limited solubility of [Zn (OH) 4] 2− (or ZnO) at high pH which commonly entails a low volumetric capacity of the anolyte, should be addressed for high density energy storage.
Figure 3a shows the cycling stability of a capacity-balanced AZIFB at a current density of 50 mA cm⁻ 2 and 80% SOC. The battery underwent continuous testing for ≈100 cycles, maintaining an average CE of 99.56%. Subsequently, a rapid capacity decay ensured at a rate of 0.166% per cycle.
Based on this strategy, alkaline Zn/Fe flow batteries using zinc as the anode and ferricyanide as catholyte active species demonstrated extraordinary cycling performance at a high zinc loading of up to 250 mA h cm−2 and near unity utilization.
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