Recent progress on MOF-derived carbon materials for energy storage 被引量：22

下载PDF

导出

摘要 Metal-organic frameworks(MOFs)are of quite a significance in the field of inorganic-organic hybrid crystals.Especially,MOFs have attracted increasing attention in recent years due to their large specific surface area,desirable electrical conductivity,controllable porosity,tunable geometric structure,and excellent thermal/chemical stability.Some recent studies have shown that carbon materials prepared by MOFs as precursors can retain the privileged structure of MOFs,such as large specific surface area and porous structure and,in contrast,realize in situ doping with heteroatoms(eg,N,S,P,and B).Moreover,by selecting appropriate MOF precursors,the composition and morphology of the carbon products can be easily adjusted.These remarkable structural advantages enable the great potential of MOF-derived carbon as high-performance energy materials,which to date have been applied in the fields of energy storage and conversion systems.In this review,we summarize the latest advances in MOF-derived carbon materials for energy storage applications.We first introduce the compositions,structures,and synthesis methods of MOF-derived carbon materials,and then discuss their applications and potentials in energy storage systems,including rechargeable lithium/sodium-ion batteries,lithium-sulfur batteries,supercapacitors,and so forth,in detail.Finally,we put forward our own perspectives on the future development of MOF-derived carbon materials.

作者 Jincan Ren Yalan Huang He Zhu Binghao Zhang Hekang Zhu Shenghui Shen Guoqiang Tan Feng Wu Hao He Si Lan Xinhui Xia Qi Liu

机构地区 Department of Physics Shenzhen Research Institute State Key Laboratory of Silicon Materials School of Materials Science&Engineering School of Materials Science&Engineering School of Materials Science and Engineering

出处《Carbon Energy》 CAS 2020年第2期176-202,共27页 碳能源（英文）

基金 This study acknowledges the supports by the Shenzhen Science and Technology Innovation Commission under Grant JCYJ20180507181806316 the City University of Hong Kong under project Fundamental Investigation of Phase Transformative Materials for Energy Application(Project No.9610399) the Shenzhen Research Institute,City University of Hong Kong.

关键词 carbon materials energy storage and conversion metal-organic frameworks

分类号 TB34 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献2

1OU XiuQin, XU ShengZhao, LIANG GuangChuan, WANG Li & ZHAO Xia Institute of Power Source & Ecomaterials Science, Hebei University of Technology, Tianjin 300130, China.Effect of Fe(III) impurity on the electrochemical performance of LiFePO_4 prepared by hydrothermal process[J].Science China(Technological Sciences),2009,52(1):264-268. 被引量：6
2赵昱颉,刘金章,Michael Horn,Nunzio Motta,胡明俊,李岩.Recent advancements in metal organic framework based electrodes for supercapacitors[J].Science China Materials,2018,61(2):159-184. 被引量：10

二级参考文献21

1Lee J,Teja A S.Synthesis of LiFePO4 micro and nanoparticles in supercritical water. Materials Letters . 2006
2Franger S,Cras F L,Bourbon C, et al.An electrochemical impedance spectroscopy study of new lithiated manganese oxides for 3 V appli- cation in rechargeable Li-batteries. Journal of Power Sources . 2003
3Dokko K,Koizumi S,Kanamura K.Electrochemical reactivity of LiFePO4 prepared by hydrothermal method. Chemistry Letters . 2006
4Doeff M M,Hu Y Q,Mclarnon F,et al.Effect of surface carbon structure on the electrochemical performance of LiFePO4. Electrochemical and Solid State Letters . 2003
5Ni J F,Zhou H H,Chen J T. et al.LiFePO4 doped with ions prepared by co-precipitation method. Materials Letters . 2005
6Yang S,Song Y,Zavalij P Y,WhittinghamMS.Reactivity, stability and Electrochemical Behavior of LithiumIron Phosphates. Electrochemistry Communications . 2002
7Procini P P,Carewska M,Scaccia S,et al.A new synthetic route for preparing LiFePO4 with enhanced electrochemical performance. Journal of the Electrochemical Society . 2002
8Huang H,Yin S C,Nazar L F.Approaching theoretical capacity of LiFePO4at room temperature at high rates. Electrochemicaland Solid State Letters . 2001
9Yamada Atsuo,,Chung S.C,Hinokuma K.Optimized LiFePO4 for lithium battery cathodes. J.Electrochem. Soc . 2001
10Chung SY,Bloking JT,Chiang YM.Electronically conductive phospho-olivines as lithium storage electrodes. Nat.Mater . 2002

共引文献14

1王保峰,许明玉,王晓波,黄慧杰,朱希平,黄德勇.化学研磨法制备磷酸铁锂正极材料的结构性能研究[J].上海电力学院学报,2009,25(5):513-516.
2朱令之,韩恩山,曹吉林,成文玉,王晨旭.改进固相法优化合成碳包覆磷酸亚铁锂正极材料[J].化工进展,2010,29(11):2108-2113. 被引量：4
3WANG Jing.Focuses of material science development in recent years[J].Science China(Technological Sciences),2011,54(6):1645-1648. 被引量：1
4付正伟,关翔锋,李莉萍,李广社,郑菁.Microstructural Characteristics of Hydrothermally Synthesized LiFePO_4 and Relevant Impacts on the Electrochemical Performance[J].Chinese Journal of Structural Chemistry,2011,30(7):975-986.
5李向锋,HU Yunlong,LIU Fang,张昭.Synthesis of Low-cost LiFePO_4 from Li_2CO_3 by a Novel Hydrothermal Method and Investigation on the Reaction Mechanism[J].Journal of Wuhan University of Technology(Materials Science),2015,30(2):223-230. 被引量：2
6王诺亚.有机骨架衍生碳材料在超级电容器方面的应用[J].西部皮革,2019,41(16):2-2. 被引量：1
7尹洪伟,郭丽芳,张文磊,李廷鱼,李刚.镍基MOF电极材料物理超声改性及电化学性能[J].微纳电子技术,2020,57(5):372-378. 被引量：6
8虞圣盼,黄成德.中空棒状MOF及其衍生的磷酸盐类电池型电容性能的研究[J].化学工业与工程,2020,37(5):53-63. 被引量：2
9Chongxiong Duan,Kuan Liang,Jiahui Lin,Jingjing Li,Libo Li,Le Kang,Yi Yu,Hongxia Xi.Application of hierarchically porous metal-organic frameworks in heterogeneous catalysis:A review[J].Science China Materials,2022,65(2):298-320. 被引量：14
10罗欢,郁佳,张陈成,梁志结,毛庆辉.两种多酸基棉织物的防紫外线与热稳定性研究[J].棉纺织技术,2022,50(4):14-17. 被引量：1

同被引文献182

1Xiaodong Hong,Rui Wang,Yue Liu,Jiawei Fu,Ji Liang,Shixue Dou.Recent advances in chemical adsorption and catalytic conversion materials for Li–S batteries[J].Journal of Energy Chemistry,2020,29(3):144-168. 被引量：22
2陈政豪,张家飞,张双保.塑料薄膜胶接木材单板制备环境友好型复合材料研究进展[J].森林防火,2021,39(S01):1-6. 被引量：13
3Xuemei Zhang,Yunhong Wei,Boya Wang,Mei Wang,Yun Zhang,Qian Wang,Hao Wu.Construction of Electrocatalytic and Heat-Resistant Self-Supporting Electrodes for High-Performance Lithium–Sulfur Batteries[J].Nano-Micro Letters,2019,11(4):386-402. 被引量：8
4Siliang Wang,Qiang Wang,Wei Zeng,Min Wang,Limin Ruan,Yanan Ma.A New Free-Standing Aqueous Zinc-Ion Capacitor Based on MnO2–CNTs Cathode and MXene Anode[J].Nano-Micro Letters,2019,11(4):227-238. 被引量：13
5Junfeng Huang,Xin Lu,Teng Sun,Daiyao Yu,Zhong Xu,Yanting Xie,Xinglin Jiang,Yongbin Wang,Shenglong Wang,Xiong Zhang,Weiqing Yang,Haitao Zhang.Boosting High-Voltage Dynamics Towards High-Energy-Density Lithium-Ion Capacitors[J].Energy & Environmental Materials,2023,6(4):211-217. 被引量：3
6Jianmin Li,Hao Wang,Xu Xiao.Intedrcalation in Two-Dimensional Transition Metal Carbides and Nitrides(MXenes) toward Electrochemical Capacitor and Beyond[J].Energy & Environmental Materials,2020,3(3):306-322. 被引量：4
7Chuanfang (John) Zhang,Yonglu Ma,Xuetao Zhang,Sina Abdolhosseinzadeh,Hongwei Sheng,Wei Lan,Amir Pakdel,Jakob Heier,Frank Nüesch.Two-Dimensional Transition Metal Carbides and Nitrides(MXenes): Synthesis, Properties, and Electrochemical Energy Storage Applications[J].Energy & Environmental Materials,2020,3(1):29-55. 被引量：30
8Yuqi Jiang,Jinping Liu.Definitions of Pseudocapacitive Materials: A Brief Review[J].Energy & Environmental Materials,2019,2(1):30-37. 被引量：39
9Qiongguang Li,Yanhong Wang,Jing Yu,Menglei Yuan,Qiangqiang Tan,Ziyi Zhong,Fabing Su.High-performance Si-Containing anode materials in lithium-ion batteries: A superstructure of Si@Co-NC composite works effectively[J].Green Energy & Environment,2022,7(1):116-129. 被引量：4
10Yuning Li,Dong Liu,Shenglin Liu,Wei Wang,Sujuan Xie,Xiangxue Zhu,Longya Xu.Thermal and hydrothermal stabilities of the alkali-treated HZSM-5 zeolites[J].Journal of Natural Gas Chemistry,2008,17(1):69-74. 被引量：10

引证文献22

1Liqun Wang,Lei Wen,Yueyu Tong,Sihui Wang,Xinggang Hou,Xiaodong An,Shi Xue Dou,Ji Liang.Photo-rechargeable batteries and supercapacitors:Critical roles of carbon-based functional materials[J].Carbon Energy,2021,3(2):225-252. 被引量：1
2Qinghuiqiang Xiao,Jinlin Yang,Xiaodong Wang,Yirui Deng,Peng Han,Ning Yuan,Lei Zhang,Ming Feng,Chang‐an Wang,Ruiping Liu.Carbon-based flexible self-supporting cathode for lithium-sulfur batteries:Progress and perspective[J].Carbon Energy,2021,3(2):271-302. 被引量：17
3Songshan Bi,Hongmei Cao,Rui Wang,Fang Wan,Zhiqiang Niu.In-plane micro-sized energy storage devices:From device fabrication to integration and intelligent designs[J].Journal of Energy Chemistry,2021,30(12):25-39. 被引量：2
4Yuyue Zhao,Yunlu Zhang,Ying Wang,Daxian Cao,Xiao Sun,Hongli Zhu.Versatile zero- to three-dimensional carbon for electrochemical energy storage[J].Carbon Energy,2021,3(6):895-915. 被引量：6
5王加义,郭胜楠,王新,谷林,苏东.锂离子电池高镍层状氧化物正极结构失效机制[J].电化学,2022,28(2):74-97.
6Penggao Liu,Weifang Liu,Kaiyu Liu.Rational modulation of emerging MXene materials for zinc-ion storage[J].Carbon Energy,2022,4(1):60-76. 被引量：9
7李玉玲,王垣力,李冬云,覃航,郭文明,刘小磐,高朋召,肖汉宁.外交变磁场对碳纸原位负载MOFs衍生氮掺杂多孔碳OER性能的影响[J].粉末冶金材料科学与工程,2022,27(2):224-236.
8Yinyu Xiang,Liqiang Lu,Ajay Giri Prakash Kottapalli,Yutao Pei.Status and perspectives of hierarchical porous carbon materials in terms of high-performance lithium-sulfur batteries[J].Carbon Energy,2022,4(3):346-398. 被引量：17
9Lingqi Huang,Zhiyong Luo,Wenjie Han,Qi Zhang,He Zhu,Shiping Zhu.Direct transformation of ZIF-8 into hollow porous carbons and hollow carbon composites[J].Nano Research,2022,15(7):5769-5774. 被引量：2
10Ziwei Cao,Roya Momen,Shusheng Tao,Dengyi Xiong,Zirui Song,Xuhuan Xiao,Wentao Deng,Hongshuai Hou,Sedat Yasar,Sedar Altin,Faith Bulut,Guoqiang Zou,Xiaobo Ji.Metal-Organic Framework Materials for Electrochemical Supercapacitors[J].Nano-Micro Letters,2022,14(11):172-204. 被引量：11

二级引证文献82

1Junbing Zhu,Wenxi Hu,Jiangfeng Ni,Liang Li.Zinc micro-energy storage devices powering microsystems[J].National Science Open,2024,3(5):165-191.
2Yichuan Guo,Rabia Khatoon,Jianguo Lu,Qinggang He,Xiang Gao,Xiaopeng Yang,Xun Hu,Yang Wu,Jiale Lian,Zhoupeng Li,Zhizhen Ye.Regulating adsorption ability toward polysulfides in a porous carbon/Cu_(3)P hybrid for an ultrastable high-temperature lithium-sulfur battery[J].Carbon Energy,2021,3(6):841-855. 被引量：1
3张明慧,徐文,武丽莎,董琰峰.MXene基纳米材料在高性能水系锌离子混合电容器中的研究进展[J].新型炭材料,2022,37(3):508-526. 被引量：4
4Mingjie Wu,Gaixia Zhang,Huaming Yang,Xianhu Liu,Marc Dubois,Marc AGauthier,Shuhui Sun.Aqueous Zn-based rechargeable batteries:Recent progress and future perspectives[J].InfoMat,2022,4(5):67-101. 被引量：8
5Yinyu Xiang,Liqiang Lu,Ajay Giri Prakash Kottapalli,Yutao Pei.Status and perspectives of hierarchical porous carbon materials in terms of high-performance lithium-sulfur batteries[J].Carbon Energy,2022,4(3):346-398. 被引量：17
6Kang Jiang,Xi Wen,Yuxian Deng,Zeyan Zhou,Qunhong Weng.Integration of all-printed zinc ion microbattery and glucose sensor toward onsite quick detections[J].SusMat,2022,2(3):368-378. 被引量：1
7刘学安,汤丽怡,覃健,唐大江,童张法,曲慧颖.热解Ni/Co-ZIF-8制备碳纳米管桥连多孔碳及其在超级电容器中的应用[J].化工学报,2022,73(7):3287-3297.
8Sen Wang,Jiaxin Ma,Xiaoyu Shi,Yuanyuan Zhu,Zhong-Shuai Wu.Recent status and future perspectives of ultracompact and customizable micro-supercapacitors[J].Nano Research Energy,2022,1(2):94-111. 被引量：10
9HOU JiYue,WANG Ying,YANG WenHao,WANG Fei,YANG Dong,ZHANG YiYong,LIANG Feng,LI Xue,ZHANG YingJie,ZHAO JinBao.Application of MXenes in lithium-sulfur batteries[J].Science China(Technological Sciences),2022,65(10):2259-2273. 被引量：2
10燕映霖,杨媛媛,谢易桂,韦卓含,赵颖娟,邹一鸣,冯祖飞,杨蓉.出菇次数调控菌糠基碳孔隙结构与载硫电极储锂性能分析[J].农业工程学报,2022,38(23):195-202. 被引量：3

1Jin-Jun Xu,Qiang Jin.Hydrocarbon generation from Carboniferous-Permian coaly source rocks in the Huanghua depression under different geological processes[J].Petroleum Science,2020,17(6):1540-1555. 被引量：5

Carbon Energy

2020年第2期

浏览历史

内容加载中请稍等...