Search Results - "Qi, Xiaoqun"

Lithiophilic anchor points enabling endogenous symbiotic Li3N interface for homogeneous and stable lithium electrodeposition by Chen, Zhigao, Chen, Weimin, Wang, Hongxia, Zhang, Cheng, Qi, Xiaoqun, Qie, Long, Wu, Fengshou, Wang, Liang, Yu, Faquan

“…The safety hazards and short lifecycles caused by uncontrollable dendrite growth and infinite volume expansion hamper the widespread deployment of Li metal…”
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Two‐Plateau Li‐Se Chemistry for High Volumetric Capacity Se Cathodes by Qi, Xiaoqun, Yang, Ying, Jin, Qiang, Yang, Fengyi, Xie, Yong, Sang, Pengfei, Liu, Kun, Zhao, Wenbin, Xu, Xiaobin, Fu, Yongzhu, Zhou, Jian, Qie, Long, Huang, Yunhui

“…For Li‐Se batteries, ether‐ and carbonate‐based electrolytes are commonly used. However, because of the “shuttle effect” of the highly dissoluble long‐chain…”
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Semi‐Flooded Sulfur Cathode with Ultralean Absorbed Electrolyte in Li–S Battery by Xie, Yong, Pan, Guoyu, Jin, Qiang, Qi, Xiaoqun, Wang, Tan, Li, Wei, Xu, Hui, Zheng, Yuheng, Li, Sa, Qie, Long, Huang, Yunhui, Li, Ju

“…Lean electrolyte (small E/S ratio) is urgently needed to achieve high practical energy densities in Li–S batteries, but there is a distinction between the…”
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An efficient recycling strategy to eliminate the residual “impurities” while heal the damaged structure of spent graphite anodes by Yang, Dan, Yang, Ying, Du, Haoran, Ji, Yongsheng, Ma, Mingyuan, Pan, Yujun, Qi, Xiaoqun, Sun, Quan, Shi, Kaiyuan, Qie, Long

“…The recycling of graphite from spent lithium-ion batteries (LIBs) is overlooked due to its relatively low added value and the lack of efficient recovering…”
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Demystifying the Salt-Induced Li Loss: A Universal Procedure for the Electrolyte Design of Lithium-Metal Batteries by Zhu, Zhenglu, Li, Xiaohui, Qi, Xiaoqun, Ji, Jie, Ji, Yongsheng, Jiang, Ruining, Liang, Chaofan, Yang, Dan, Yang, Ze, Qie, Long, Huang, Yunhui

“…Highlights The loss mechanisms of irreversible Li in electrolytes with various salts (e.g., lithium hexafluorophosphate (LiPF 6 ), lithium…”
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A Nonflammable Organic Electrolyte with a Weak Association State for Zinc Batteries Operated at −78.5 °C by Du, Haoran, Qi, Xiaoqun, Qie, Long, Huang, Yunhui

“…Traditional rechargeable Zn batteries fail to work in cold regions due to the high freezing point (Tf) and severe corrosivity of the aqueous electrolytes with…”
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Zinc‐Contained Alloy as a Robustly Adhered Interfacial Lattice Locking Layer for Planar and Stable Zinc Electrodeposition by Ji, Jie, Zhu, Zhenglu, Du, Haoran, Qi, Xiaoqun, Yao, Jia, Wan, Houzhao, Wang, Hao, Qie, Long, Huang, Yunhui

“…Stable zinc (Zn)/electrolyte interface is critical for developing rechargeable aqueous Zn‐metal batteries with long‐term stability, which requires the dense…”
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Ultrahigh Capacity from Complexation‐Enabled Aluminum‐Ion Batteries with C70 as the Cathode by Huang, Chenli, Yang, Ying, Li, Mengyang, Qi, Xiaoqun, Pan, Changwang, Guo, Kun, Bao, Lipiao, Lu, Xing

“…Restricted by the available energy storage modes, currently rechargeable aluminum‐ion batteries (RABs) can only provide a very limited experimental capacity,…”
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Ultrahigh Capacity from Complexation-Enabled Aluminum-Ion Batteries with C 70 as the Cathode by Huang, Chenli, Yang, Ying, Li, Mengyang, Qi, Xiaoqun, Pan, Changwang, Guo, Kun, Bao, Lipiao, Lu, Xing

“…Restricted by the available energy storage modes, currently rechargeable aluminum-ion batteries (RABs) can only provide a very limited experimental capacity,…”
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Electrochemical Reactivation of Dead Li2S for Li−S Batteries in Non‐Solvating Electrolytes by Qi, Xiaoqun, Yang, Fengyi, Sang, Pengfei, Zhu, Zhenglu, Jin, Xiaoyu, Pan, Yujun, Ji, Jie, Jiang, Ruining, Du, Haoran, Ji, Yongsheng, Fu, Yongzhu, Qie, Long, Huang, Yunhui

“…The use of non‐solvating, or as‐called sparingly‐solvating, electrolytes (NSEs), is regarded as one of the most promising solutions to the obstacles to the…”
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Ultralean Electrolyte Li‑S Battery by Avoiding Gelation Catastrophe by Wang, Li, Xie, Yong, Qi, Xiaoqun, Jiang, Ruining, Huang, Kai, Qie, Long, Li, Sa

“…Due to the poor electronic conductivity of solid sulfur and sulfides, the dissolution of Sα– (α = 0, 2/8, 2/6, 2/4) into a liquid electrolyte and the vehicular…”
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Thin Zinc Electrodes Stabilized with Organobromine‐Partnered H 2 O−Zn−MeOH Cluster Ions for Practical Zinc‐Metal Pouch Cells by Ji, Jie, Du, Haoran, Zhu, Zhenglu, Qi, Xiaoqun, Zhou, Fei, Li, Rui, Jiang, Ruining, Qie, Long, Huang, Yunhui

“…Abstract The utilization of thin zinc (Zn) anodes with a high depth of discharge is an effective strategy to increase the energy density of aqueous Zn metal…”
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Thin Zinc Electrodes Stabilized with Organobromine-Partnered H2O-Zn-MeOH Cluster Ions for Practical Zinc-Metal Pouch Cells by Ji, Jie, Du, Haoran, Zhu, Zhenglu, Qi, Xiaoqun, Zhou, Fei, Li, Rui, Jiang, Ruining, Qie, Long, Huang, Yunhui

“…The utilization of thin zinc (Zn) anodes with a high depth of discharge is an effective strategy to increase the energy density of aqueous Zn metal batteries…”
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A Multifunctional Additive for Long‐Cycling Lithium‐Sulfur Batteries Under Lean‐Ether‐Electrolyte Conditions by Yang, Fengyi, Qi, Xiaoqun, Jiang, Ruining, Jin, Xiaoyu, Li, Yan, Zhou, Fei, Ji, Jie, Zhang, Renyuan, Hu, Pei, Qie, Long

“…Abstract The failure of lithium‐sulfur (Li‐S) batteries operating under lean‐ether‐electrolyte conditions can be ascribed to the deterioration of electrolytes,…”
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Regenerated Graphite Electrodes with Reconstructed Solid Electrolyte Interface and Enclosed Active Lithium Toward >100% Initial Coulombic Efficiency by Ji, Yongsheng, Zhang, Hao, Yang, Dan, Pan, Yujun, Zhu, Zhenglu, Qi, Xiaoqun, Pi, Xinpeng, Du, Weichen, Cheng, Zhiheng, Yao, Yonggang, Qie, Long, Huang, Yunhui

“…Solid electrolyte interface (SEI) is arguably the most important concern in graphite anodes, which determines their achievable Coulombic efficiency (CE) and…”
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Heterogeneous Nitride Interface Enabled by Stepwise‐Reduction Electrolyte Design for Dense Li Deposition in Carbonate Electrolytes by Zhu, Zhenglu, Liu, Zhikang, Zhao, Ruirui, Qi, Xiaoqun, Ji, Jie, Yang, Fengyi, Qie, Long, Huang, Yunhui

“…Stable solid electrolyte interphase (SEI) with high Li+‐ion conductivity is desperately desired for lithium (Li) metal anodes. However, it remains challenging…”
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Li2Se as a Cathode Prelithiation Additive for Lithium-Ion Batteries by Pan, Yujun, Qi, Xiaoqun, Du, Haoran, Ji, Yongsheng, Yang, Dan, Zhu, Zhenglu, Yang, Ying, Qie, Long, Huang, Yunhui

“…In conventional lithium-ion batteries (LIBs), active lithium (Li) ions, which function as charge carriers and could only be supplied by the Li-containing…”
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Air‐Stable Li2S Cathodes Enabled by an In Situ‐Formed Li+ Conductor for Graphite‐Li2S Pouch Cells by Qi, Xiaoqun, Jin, Xiaoyu, Xu, Henghui, Pan, Yujun, Yang, Fengyi, Zhu, Zhenglu, Ji, Jie, Jiang, Ruining, Du, Haoran, Ji, Yongsheng, Yang, Dan, Qie, Long, Huang, Yunhui

“…Using Li2S cathodes instead of S cathodes presents an opportunity to pair them with Li‐free anodes (e.g., graphite), thereby circumventing anode‐related…”
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A Room‐Temperature Lithium‐Restocking Strategy for the Direct Reuse of Degraded LiFePO 4 Electrodes by Yang, Dan, Fang, Zhou, Ji, Yongsheng, Yang, Ying, Hou, Jingrong, Zhang, Zhenyan, Du, Weichen, Qi, Xiaoqun, Zhu, Zhenglu, Zhang, Renyuan, Hu, Pei, Qie, Long, Huang, Yunhui

“…Abstract The sustainable development of lithium iron phosphate (LFP) batteries calls for efficient recycling technologies for spent LFP (SLFP). Even for the…”
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A Room-Temperature Lithium-Restocking Strategy for the Direct Reuse of Degraded LiFePO4 Electrodes by Yang, Dan, Fang, Zhou, Ji, Yongsheng, Yang, Ying, Hou, Jingrong, Zhang, Zhenyan, Du, Weichen, Qi, Xiaoqun, Zhu, Zhenglu, Zhang, Renyuan, Hu, Pei, Qie, Long, Huang, Yunhui

“…The sustainable development of lithium iron phosphate (LFP) batteries calls for efficient recycling technologies for spent LFP (SLFP). Even for the advanced…”
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