POUCH

作品数:148被引量:253H指数:8
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相关领域:医药卫生更多>>
相关作者:傅传刚丁健华盖思姆王觅江从庆更多>>
相关机构:第二军医大学武汉大学上下贸易(上海)有限公司清华大学第一附属医院更多>>
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Modulating ion-dipole interactions in nonflammable phosphonate-based electrolyte for safe and stable sodium-ion pouch cells
《National Science Review》2025年第3期233-244,共12页Zhuo Yang Yingying Dai Zheng-Kun Xie Shao-Bo Li Yao-Jie Lei Jian Chen Xunzhu Zhou Zhi-Qiang Hao Xin Tan Lin Li Wei-Hong Lai Li Li Wei-Hua Chen Shu-Lei Chou 
supported by the National Natural Science Foundation of China(52202286,22309002,52250710680 and 52171217);the Natural Science Foundation of Zhejiang Province(LY24B030006);the High-end Foreign Experts Recruitment Plan of China(G2023016009L);the Key Research and Development Program of Zhejiang Province(2024C01057,2023C01232);the Science and Technology Plan Project of Wenzhou Municipality(ZG2024055,ZG2022032);Wenzhou Association for Science and Technology Innovation Program(NLTS2024-013);the Basic Research Project of Wenzhou City(G20220016);Australian Research Council(DE220101113).
Phosphonate-based electrolytes with the merits of low cost and intrinsic nonflammability are promising candidates to realize the safe operation of sodium-ion batteries.However,they generally suffer from poor interfaci...
关键词:sodium-ion battery solvation chemistry nonflammable electrolyte capacity retention safety 
Breaking boundaries in O_(3)-type NaNi_(1/3)Fe_(1/3)Mn_(1/3)O_(2)cathode materials for sodium-ion batteries:An industrially scalable reheating strategy for superior electrochemical performance
《Journal of Energy Chemistry》2025年第3期107-119,共13页Manman Chen Cai Zhao Yan Li Hui Wang Kaihang Wang Shengchen Yang Yue Gao Wenjuan Zhang Chun Chen Tao Zhang Lei Wen Kehua Dai Jing Mao 
the financial support provided by the Longzihu New Energy Laboratory Joint Fund of Henan Province(2023008);the Energy Storage Mater.and Processes Key Laboratory of Henan Province Open Fund(2021003);the Collaborative Innovation Team Project Fund of Industry-University-Research(32214085);the financial support received from Zhejiang Vast Na Technology Co.,Ltd.(24110380)。
To address the challenges of air stability and slurry processability in layered transition metal oxide O_(3)-type NaNi_(1/3)Fe_(1/3)Mn_(1/3)O_(2)(NFM)for sodium-ion batteries(SIBs),we have designed an innovative 500℃...
关键词:Sodium-ion batteries O_(3)-type layered oxide cathode REHEATING Al_(2)O_(3)coating Pouch full cells 
Revealing ionically isolated Li loss in practical rechargeable Li metal pouch cells
《Science Bulletin》2025年第6期914-922,共9页Xiangrui Duan Yuanjian Li Kai Huang Shuibin Tu Guocheng Li Wenyu Wang Hongyu Luo Zihe Chen Chunhao Li Kai Cheng Xin-Xin Wang Li Wang Yongming Sun 
financially supported by the Natural Science Foundation of China(52272207).
The degradation of rechargeable lithium(Li)metal batteries is primarily attributed to active Li loss,encompassing isolated Li,also known as“dead Li”,and solid electrolyte interphase(SEI-Li).Comprehending the formati...
关键词:Dead Li Ionically isolated Li Electrolyte infilling ratio Li metal batteries Lean electrolyte conditions 
Risk factors associated with the development of chronic pouchitis following ileal-pouch anal anastomosis surgery for ulcerative colitis
《World Journal of Meta-Analysis》2025年第1期46-56,共11页Emi Khoo Robert Gilmore Alison Griffin Gerald Holtmann Jakob Begun 
BACKGROUND Chronic pouchitis remains a significant and prevalent complication following ileal pouch-anal anastomosis in patients with ulcerative colitis.AIM To identify potential risk factors for the development of ch...
关键词:Ulcerative colitis Ileal pouch-anal anastomosis POUCH Chronic pouchitis Risk factor 
膀胱癌根治性膀胱切除术联合Mainz PouchⅡ代膀胱术后的预后风险回顾性观察研究
《中国肿瘤临床》2025年第2期75-80,共6页莫淳皓 陈传健 张少龙 董治春 裴卓禧 王志平 侯子珍 丁辉 
甘肃省自然科学基金项目(编号:21JR1RA119);兰州大学第二医院“萃英科技创新”计划项目(编号:CY2021-MS-B03)资助。
目的:本研究旨在评估包括年龄、性别、肿瘤分期、分级、肿瘤分化、淋巴结转移(lymph node metastasis,LNM)、肿瘤发生频率、肿瘤数量等临床和组织病理学参数在接受根治性膀胱切除术(rdical cystectomy,RC)联合Mainz PouchⅡ代膀胱治疗...
关键词:Mainz pouchⅡ 根治性膀胱切除术 膀胱癌 
Modification of Li_(3)PO_(4) layer effectively boosting lithium storage and thermal safety performance for LiCoO_(2) batteries
《Journal of Energy Chemistry》2024年第12期615-626,共12页Weijun Zhang Caifang Qiu Zhongfeiyu Lin Guiying Zhao Yingying Liu Pengcheng Wang Yingbin Lin Zhigao Huang Jiaxin Li 
jointly supported by the Natural Science Foundations of China(No.22179020,12174057);Fujian Province’s“Young Eagle Program”Youth Top Talents Program。
To meet the demand for high-performance LiCoO_(2) batteries,it is necessary to overcome challenges such as interface degradation and rapid capacity degradation caused by changes in bulk structure,especially under deep...
关键词:LiCoO_(2)cathode Li_(3)PO_(4)surface modification Electrochemical performance Pouch full battery Thermal safety performance 
Mechanisms for different cyclabilities of commercial LiCoO2/artificial graphite pouch cells at−10,0,and 25℃
《Particuology》2024年第12期145-153,共9页Renbo Deng Shiran Li Qianqian Wang Jiaying Liang Xufeng Zang Huiling Xi 
the Natural Science Foundation of Zhejiang Province,China (grant No.LQ21B030004);the Natural Science Foundation of Huzhou City,China (grant No.2022YZ38 and 2021YZ06);the Foundation for Science and Technology Commissioner,China (grant No.2023KT77)for their supports to this work.
Although a few studies reveal the reasons of poor charge-discharge abilities for lithium-ion batteries based on LiNi_(x)Mn_(y)Co_(1-x-y)O_(2) at low temperature,there are still some practical issues worthy of further ...
关键词:Lithium-ion batteries LiCoO_(2) Low temperature Cycle stability Failure mechanism 
Boosting High-Voltage Practical Lithium Metal Batteries with Tailored Additives
《Nano-Micro Letters》2024年第12期23-41,共19页Jinhai You Qiong Wang Runhong Wei Li Deng Yiyang Hu Li Niu Jingkai Wang Xiaomei Zheng Junwei Li Yao Zhou Jun-Tao Li 
supported by the National Key Research and Development Program of China(2022YFB2502103);the Xiamen Science and Technology Project(3502Z20231057);the National Natural Science Foundation of China(Nos.22279107 and 22288102);J.You,R.Wei,and L.Niu acknowledge the China Scholarship Council(CSC)for a doctoral scholarship(Grant Nos.202006310030,202108530138,and 202108530139).
The lithium(Li)metal anode is widely regarded as an ideal anode material for high-energy-density batteries.However,uncontrolled Li dendrite growth often leads to unfavorable interfaces and low Coulombic efficiency(CE)...
关键词:Li metal anode Li dendrites LiNO_(3) 1 3 6-tricyanohexane Pouch cells 
In situ constructing(MnS/Mn_(2)SnS_4)@N,S-ACTs heterostructure with superior Na/Li-storage capabilities in half-cells and pouch full-cells
《Chinese Chemical Letters》2024年第11期522-527,共6页Dai-Huo Liu Ao Wang Hong-Yan Lü Xing-Long Wu Dan Luo Wen-Hao Li Jin-Zhi Guo Haozhen Dou Qianyi Ma Zhongwei Chen 
financial support from the project funded by National Natural Science Foundation of China(Nos.52372188,51902090);2023 Introduction of studying abroad talent program,Science Technology Program of Jilin Province(No.20220508141RC);the 111 Project(No.B13013);China Postdoctoral Science Foundation(No.2019M652546);Henan Province Postdoctoral Start-Up Foundation(No.1901017);Henan Normal University Doctoral Start-Up Project Foundation,“111”project(No.D17007);Henan Center for Outstanding Overseas Scientists(No.GZS2018003);the Dalian Revitalization Talents Program(No.2022RG01)。
Effective design of nanoheterostructure anode with high ion/electron migration kinetics can give electrode with superior electrochemical performance.However,the design and preparation of nanoheterostructure composites...
关键词:(MnS/Mn_(2)SnS_(4))@N S-ACTs HETEROSTRUCTURE Long cycling life Na-/Li-ion half cells Pouch full cells 
Fully carbonate-electrolyte-based high-energy-density Li–S batteries with solid-phase conversion
《Carbon Energy》2024年第11期14-26,共13页Takashi Hakari Yuto Kameoka Kaihei Kishida Shinji Ozaki Chihiro Murata Minako Deguchi Ryo Harada Tomoki Fujisawa Yusuke Mizuno Heisuke Nishikawa Tomoyuki Tamura Yiqun Wang Hikari Takahara Takashi Aoki Tokuo Inamasu Daisuke Okuda Masashi Ishikawa 
This study was performed under the“Research andDevelopment of Advanced Aircraft Systems for PracticalApplication(JPNP15005)”project commissioned by theNew Energy and Industrial Technology DevelopmentOrganization(NEDO);The C,O,and S K-edge XANESexperiments were conducted at BL1N2 and BL6N1 of theAichi Synchrotron Radiation Center,Aichi Science&Technology Foundation,Aichi,Japan(Proposal Num-bers 202103016 , 202102100)
Carbonate-electrolyte-based lithium–sulfur(Li–S)batteries with solid-phase conversion offer promising safety and scalability,but their reversible capacities are limited.In addition,large-format pouch cells are pavin...
关键词:lithium-sulfur batteries pouch cells solid-electrolyte interphase 
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