碳基柔性储能器件实验室

The Zhiqiang Niu Group

Lab of Aqueous Battery

The Zhiqiang Niu Group--牛志强课题组 Publications
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2024

  • (145) Zhang, Yan; Hu, Yang; Wang, Huimin; Tian, Jinlei; Niu, Zhiqiang*; A H2O2 Self-Charging Zinc Battery with Ultrafast Power Generation and Storage, Angewandte Chemie International Edition, 2024, e202405166. [Link]


  • (144) Zhu, Jiacai#; Tie, Zhiwei#; Bi, Songshan; Niu, Zhiqiang*; Towards More Sustainable Aqueous Zinc-Ion Batteries, 

    Angewandte Chemie International Edition, 2024, e202403712. [Link]


    水系能源迈向更可持续的水系锌离子电池



  • (143) Yang, Min; Zhu, Jiacai; Bi, Songshan; Wang, Rui; Wang, Huimin; Yue, Fang; Niu, Zhiqiang*; The Construction of  

    Anion-Induced Solvation Structures in Low-concentration Electrolyte for Stable Zinc Anodes, Angewandte Chemie 

    International Edition, 2024, 63, e202400337. [Link]


    能源技术情报无添加剂低浓度电解质设计

    Gaussian低浓度电解质中阴离子诱导溶剂化结构构建助力锌阳极稳定


  • (142) Wang, Huimin#; Bi, Songshan#; Zhang, Yanyu; Tian, Jinlei; Niu, Zhiqiang*; A High-Energy Aqueous All-Sulfur 

    Battery, Angewandte Chemie International Edition, 2024, 63(10): e202317825. [Link]


    水系能源高能水系全硫电池

    清新电源高能水系全硫电池



  • (141) Yang, Jinzhang#; Wang, Shuai#; Du, Lingyu#; Bi, Songshan; Zhu, Jiacai; Liu, Lili*; Niu, Zhiqiang*; Thermal-Cyclized Polyacrylonitrile Artificial Protective Layers Toward Stable Zinc Anodes for Aqueous Zinc-Based Batteries, Advanced 

    Functional Materials, 2024, 2314426. [Link]


    水系能源热循环聚丙烯腈人工保护层用于水系锌基电池的稳定锌阳极


2023

  • (140) Wang, Rui; Yao, Minjie; Yang, Min; Zhu, Jiacai; Chen, Jun; Niu, Zhiqiang*;  Synergetic  Modulation  on  Ionic 

    Association and Solvation Structure by Electron-withdrawing Effect for Aqueous Zinc-Ion Batteries, Proceedings of the National Academy of Sciences, 2023, 120(15): e2221980120. [Link]


    水系能源水系锌离子电池吸电子效应对离子缔合和溶剂化结构的协同调控


  • (139) Bi, Songshan; Wang, Huimin; Zhang, Yanyu; Li, Qingjie; Tian, Jinlei; Niu, Zhiqiang*; Six‐electron‐redox iodine 

    electrodes for high‐energy aqueous batteries, Angewandte Chemie International Edition, 2023, 62(49): e202312982. [Link]


    先进电源:高能水系电池用六电子氧化还原碘电极


  • (138) Bi, Songshan#; Zhang, Yanyu#; Wang, Huimin; Tian, Jinlei; Niu, Zhiqiang*; High-Energy Aqueous/Organic Hybrid 

    Batteries Enabled by Cu2+ Redox Charge Carriers, Angewandte Chemie International Edition, 2023, 62(49): 

    e202312172. [Link]


    电解质前沿Cu2+氧化还原电荷载体实现高能水/有机混合电池

    电池未来Cu2+氧化还原电荷载体实现高能水/有机混合电池


  • (137) Zhu, Jiacai; Yang, Min; Hu, Yang; Yao, Minjie; Chen, Jun; Niu, Zhiqiang*; The Construction of Binary Phase 

    Electrolyte Interface for Highly Stable Zinc Anodes, Advanced Materials, 2024, 36(3): 2304426. [Link]


    电化学能源为高稳定性锌阳极构建二元相电解质界面

    纳米功能材料高稳定锌负极二相电解质界面的构建


  • (136) Su, Wei; Zhang, Yan; Wang, Huimin; Yang, Min; Niu, Zhiqiang*; An Ultrafast Air Self-Charging Zinc Battery, 

    Advanced Materials, 2024, 36(2): 2308042. [Link]


    水系储能超快空气自充电锌电池



  • (135) Shi, Ying; Wang, Rui; Bi, Songshan; Yang, Min; Liu, Lili*; Niu, Zhiqiang*; An Anti-Freezing Hydrogel Electrolyte for  Flexible Zinc-Ion Batteries Operating at -70℃, Advanced Functional Materials, 2023, 33(24): 2214546. [Link]


    水系能源-70℃下用于柔性锌离子电池的防冻水凝胶电解质


2022

2021

  • (120)  Bi, Songshan; Wang, Shuai;  Yue, Fang; Tie, Zhiwei;  Niu, Zhiqiang*;  A  Rechargeable  Aqueous  Manganese-Ion  Battery Based on Intercalation Chemistry, Nature Communications, 2021, 12: 6991. [Link]


    顶刊收割机: 首次实现锰离子电池!未来可期!

    电化学能源: 首次报道二价锰离子水系电池

    崛步化学: 锰离子电池新进展!基于插层化学的可充电水态电池



  • (119) Yue, Fang; Tie, Zhiwei; Deng, Shenzhen; Wang, Shuai; Yang, Min; Niu, Zhiqiang*; An Ultralow Temperature

    Aqueous Battery with Proton Chemistry, Angewandte Chemie International Edition, 2021, 60(25): 13882-13886.

    [Link]



  • (118) Wang, Shuai; Yuan, Zishun; Zhang, Xu; Bi, Songshan; Zhou, Zhen; Tian, Jinlei; Zhang, Qichun; Niu, Zhiqiang*; Non-Metal Ion Co-Insertion Chemistry in Aqueous Zn/MnO2 Batteries, Angewandte Chemie International Edition, 2021, 

    60(13): 7056-7060. [Link]


  • (117) Zhang, Nannan; Huang, Shuo; Yuan, Zishun; Zhu, Jiacai; Zhao, Zifang; Niu, Zhiqiang*; Direct Self-Assembly of 

    Mxene on Zn Anodes for Dendrite-Free Aqueous Zinc-Ion Batteries, Angewandte Chemie International Edition

    2021, 60(6): 2861-2865. [Link]


    WileyChem: 原位自组装MXene保护锌负极

    能源学人: MXene助力无枝晶锌离子电池



  • (116) Wan, Fang; Hao, Zhimeng; Wang, Shuai; Ni, Youxuan; Zhu, Jiacai; Tie, Zhiwei; Bi, Songshan; Niu, Zhiqiang*;

    Chen, Jun*; A Universal Compensation Strategy to Anchor Polar Organic Molecules in Bilayered Hydrated Vanadates

    for Promoting Aqueous Zinc-Ion Storage, Advanced Materials, 2021, 33(36): 2102701. [Link]



  • (115) Yao, Minjie; Yuan, Zishun; Li, Saisai; He, Tingwei; Wang, Rui; Yuan, Mingjian; Niu, Zhiqiang*; Scalable Assembly of Flexible  Ultrathin  All-in-One  Zinc-Ion  Batteries  with  Highly  Stretchable,  Editable,  and  Customizable  Functions, 

    Advanced Materials, 2021, 33(10): 2008140. [Link]


    材料牛规模化组装高度可拉伸、可编辑和可定制功能的柔性超薄一体化锌离子电池



  • (114) Wang, Rui; Yao, Minjie; Huang, Shuo; Tian, Jinlei; Niu, Zhiqiang*; Sustainable  Dough-Based  Gel  Electrolytes for 

    Aqueous Energy Storage Devices, Advanced Functional Materials, 2021, 31(14): 2009209. [Link]


    Materials Views China环保面凝胶电解质用于水系储能器件



  • (113) Zhao, Zifang; Wang, Shuai*; Wan, Fang; Tie, Zhiwei; Niu, Zhiqiang*; Scalable 3D Self-Assembly of MXene Films for Flexible Sandwich and Microsized Supercapacitors, Advanced Functional Materials, 2021, 31(23), 2101302. [Link]



  • (112) Bi, Songshan; Cao, Hongmei; Wang, Rui; Wan, Fang; Niu, Zhiqiang*; In-plane micro-sized energy storage

    devices: from device fabrication to integration and intelligent designs, Journal of Energy Chemistry, 2021,63:

    25-39. [Link]


  • (111) Bi, Songshan; Wan, Fang; Wang, Shuai; Jia, Shunhan; Tian, Jinlei; Niu, Zhiqiang*;  Flexible  and  Tailorable  Quasi- Solid-State Rechargeable Ag/Zn Microbatteries with High Performance, Carbon Energy, 2021, 3(1): 167-175.  Invited    paper for special issue "Aqueous Batteries". [Link]


    Advanced Science News柔性、可裁剪可充微结构银锌电池



  • (110) Yuan, Zishun;  Yao, Minjie;  Zhang, Nannan;  Wang, Shuai;  Rui, Xianhong;  Zhang, Qichun;  Niu, Zhiqiang*; 

    Mechanical Analysis of Flexible Integrated Energy Storage Devices under Bending by the Finite Element Method, 

    SCIENCE CHINA Materials, 2021, 64(9): 2182-2192. [Link]



  • (109) He, Yutong; Niu, Zhiqiang*; Current Research Status of Secondary Metal Ion Batteries,  Chinese Journal of 

    Chemical Education, 2021, 42(18): 24-33.[Link]



  • (108) Tian, Jinlei; Niu, Zhiqiang*; Chen, Jun*; Construction of Applied Chemistry Major in Nankai University under the 

    Background of “Emerging Engineering Education”, Chinese Journal of Chemical Education, 2021, 42 (18): 61-65.

    [Link]



  • (107) Du, Jia; Ren, Jie; Shu, Miao; Xu, Xiufang; Niu, Zhiqiang; Shi, Wei*; Si, Rui; Cheng, Peng; Insights into the Capacity 

    and Rate Performance of Transition-Metal Coordination Compounds for Reversible Lithium Storage, Angewandte 

    Chemie International Edition, 2021, 60(8): 4142-4149. [Link]



  • (106) Ji, Xiulei; Wan, Fang; Niu, Zhiqiang; The 2021 Battery Technology Roadmap: Aqueous batteriesJournal of

    Physics D: Applied Physics, 2021, 54(18):183001.[Link]



  • (105) Shao, Hongyang; Zhuang, Quan; Gao, Hongda; Wang, Yin*; Ji, Lei; Wang, Xia; Zhang, Tingting; Duan, Limei*; 

    Bai, Jie; Niu, Zhiqiang; Liu, Jinghai*; Nitrogen and Oxygen Tailoring of a Solid Carbon Active Site for Two-Electron

    Selectivity Electrocatalysis, Inorganic Chemistry Frontiers, 2021, 8(1): 173-181.[Link]




  • (104) Liu, Shi-Yu; Sun, Meng; Zhang, Shuoxin; Liu, Shiyang; Li, De-Jun; Niu, Zhiqiang; Li, Yaping; Wang, Sanwu*; First-

    Principles Study of Thermodynamic Miscibility, Structures, and Optical Properties of Cs2Sn(X1-XYX)6 (X,Y=I,Br,Cl) Lead

    -Free Perovskite Solar Cells, Applied Physics Letters, 2021, 118(14): 141903. [Link]


2020

  • (103) Zhang, Yan;  Wan, Fang;  Huang, Shuo;  Wang, Shuai;  Niu, Zhiqiang;  Chen, Jun;  A  Chemically  Self-Charging 

    Aqueous Zinc-Ion Battery, Nature Communications, 2020, 11: 2199. [Link] 


    2020 Top 50 Chemistry and Materials Sciences Articles [Link]

    Editors’Highlights [Link]

    Highlighted by Nature Energy: Zhang, Changjun. Charge with air. Nature Energy. 2020, 5, 422. [Link]



  • (102) Deng, Shenzhen; Yuan, Zishun; Tie, Zhiwei; Wang, Changda; Song, Li; Niu, Zhiqiang;  Electrochemically  Induced Metal-Organic-Framework-Derived  Amorphous  V2O5  for  Superior  Rate  Aqueous  Zinc-Ion  Batteries,  Angewandte Chemie International Edition, 2020, 59(49): 22002-22006. [Link]


    材料人创纪录容量保持率!MOF衍生的非晶态钒基氧化物助力高性能水系锌离子电池

    锌离子电池前沿电化学诱导MOF衍生的非晶V2O5用于高倍率ZIBs



  • (101) Tie, Zhiwei; Niu, Zhiqiang; Design Strategies for High-Performance Aqueous Zn/Organic Batteries, Angewandte Chemie International Edition, 2020, 59(48): 21293-21303. [Link]


    锌离子电池前沿高性能Zn/有机物电池的设计策略


  • (100) Zhu, Jiacai; Yao, Minjie; Huang, Shuo; Tian, Jinlei; Niu, Zhiqiang; Thermal-Gated Polymer Electrolytes for Smart 

    Zinc-Ion Batteries, Angewandte Chemie International Edition, 2020, 59(38): 16480-16484. Very Important Paper

    [Link]


    WileyChem: 智能热敏自保护水系锌离子电池



  • (99) Wang, S.; Huang, S.; Yao, M.; Zhang, Y.; Niu, Z.* Engineering Active Sites of Polyaniline for AlCl2+ Storage in 

    an Aluminum Battery. Angewandte Chemie International Edition, 2020, 59(29), 11800. [Link]


    纳米人聚苯胺活性位点工程助力铝电池储存AlCl2+

    清新能源调控聚苯胺活性位点实现铝电池中的阳离子存储


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  • (98) Tie, Z.; Liu, L.; Deng, S.; Zhao, D.; Niu, Z.* Proton Insertion Chemistry of a Zn-Organic Battery. Angewandte Chemie International Edition, 2020, 59(12), 4920. Very Important Paper. [Link]


    锌离子电池前沿锌-有机电池的质子插层化学

    纳米人锌/有机电池的质子插层化学



  • (97) Wan, F.; Huang, S.; Cao, H.; Niu, Z.* Freestanding Potassium Vanadate/Carbon Nanotube Films for Ultralong-Life 

    Aqueous Zinc-Ion Batteries. ACS Nano, 2020, 14(6), 6752. [Link]



  • (96) Zhang, Q.; Man, P.; He, B.; Li, C.; Li, Q.; Pan, Z.; Wang, Z.; Yang, J.; Wang, Z.; Zhou, Z.; Lu, X.*; Niu, Z.*; Yao, Y.*; Wei, L.* Binder-Free NaTi2(PO4)3 Anodes for High-Performance Coaxial-Fiber Aqueous Rechargeable Sodium-Ion Batteries. 

    Nano Energy. 2020,67,104212. [Link]



  • (95) Zhang, L.; Wan, F.; Cao, H.; Liu, L.*; Wang, Y.; Niu, Z.* Integration of Binary Active Sites: Co3V2O8 as Polysulfide 

    Traps and Catalysts for Lithium-sulfur Battery with Superior Cycling Stability. Small, 2020, 16(18), 1907153. [Link]


  • (94) Du, L.; Wang, H.; Yang, M.; Liu, L.*; Niu, Z.* Free-Standing Nanostructured Architecture as a Promising Platform for High-Performance Lithium-Sulfur Batteries. Small Structures, 2020, 1, 2000047. Invited review. [Link]


  • (93) Bi, S.;   Wu, Y.;   Cao, An.;   Tian, J.*;   Zhang, S.*;   Niu, Z.*   Free-Standing  Three - Dimensional  Carbon  Nanotubes / Amorphous MnO2 Cathodes for Aqueous Zinc-Ion Batteries with Superior Rate Performance.  Materials Today Energy,  2020, 18, 100548. Invited paper for special issue "Aqueous Batteries". [Link]


  • (92) Wang, R.; Yao, M.; Niu, Z.* Smart Supercapacitors from Materials to Devices. InfoMat, 2020, 2(1), 113. Invited 

    Review [Link]

    InfoMat南开大学牛志强研究员课题组:智能超级电容器:从材料到器件

     

  • (91) Wan, F.; Zhu, J.; Huang, S.; Niu, Z.* High Voltage Electrolytes for Aqueous Energy Storage Devices. Batteries & 

    Supercaps, 2020, 3(4), 323. An invited contribution to a Special Collection on Electrolytes for Electro-chemical 

    Energy Storage. [Link]


2019

  • (90) Zhang, L.; Liu, D.; Muhammad, Z.; Wan, F.; Xie, W.; Wang, Y.; Song, L.*; Niu, Z.*; Chen, J.  Single  Nickel  Atoms  on  Nitrogen-Doped Graphene Enabling Enhanced Kinetics of Lithium-Sulfur Batteries. Advanced Materials, 2019, 31(40), 1903955. [Link]


    Materials Views ChinaAdvanced Materials: 氮掺杂石墨烯负载镍单原子助力锂硫电池反应动力学

    7EF13


  • (89) Wan, F.; Niu, Z.*. Design Strategies for Vanadium-based Aqueous Zinc-Ion Batteries. Angewandte Chemie
     International Edition    , 2019, 58, 16358. [Link]


  • (88) Wan, F.; Zhang, Y.; Zhang, L.; Liu, D.; Wang, C.; Song, L.; Niu, Z.*; Chen, J. Reversible Oxygen Redox Chemistry in
     Aqueous Zinc-Ion Batteries. Angewandte Chemie International Edition, 2019, 58(21), 7062. [Link]
     
     纳米人水系锌离子电池中的可逆氧氧化还原化学 
     X-MOL氧的氧化还原反应助力水系锌离子电池


  • (87) Huang, S.; Wan, F.; Bi, S.; Zhu, J.; Niu, Z.*; Chen, J. A Self-Healing Integrated All-in-One Zinc-Ion Battery.
     Angewandte Chemie International Edition, 2019, 58(13), 4313. [Link] 
     
     ChemistryViews: Self-Healing Zinc-Ion  Battery
     纳米人自愈式集成一体化锌离子电池--水凝胶电解质
     X-MOL: 自修复一体化水系锌离子电池



  • (86) Wang, H.; Yu, D.; Wang, X.; Niu, Z.; Chen, M.; Cheng, L.; Zhou, W.; Guo, L.*. Electrolyte Chemistry Enables 

    Simultaneous Stabilization of Potassium Metal and Alloying Anode for Potassium-Ion Batteries. Angewandte Chemie 

    International Edition, 2019, 58(46), 16451.[Link]


  • (85) Zhang, L.; Wang, Y.; Niu, Z.*; Chen, J. Single atoms on graphene for energy storage and conversion. Small 

    methods, 2019, 180443. [Link] Invited Paper for special issue“Single Atom Methods”


    研之成理    : 综述:用于能量储存和转换的石墨烯负载单原子催化剂

    Materialsviewschina: 石墨烯负载单原子用于能源存储与转化

  • (84) Wang, X.; Wang, R.; Zhao, Z.; Bi, S.; Niu, Z.*. Controllable spatial engineering of flexible all-in-one graphene-based supercapacitors with various architectures. Energy Storage Materials, 2019, 23, 269. [Link]


  • (83) Cao, H.; Wan, F.; Zhang, L.; Dai, X.; Huang, S.; Liu, L.*; Niu, Z.*. Highly Compressible Zinc-Ion Batteries with Stable 

    Performance. Journal of Materials Chemistry A, 2019, 7, 11734. [Link]


  • (82) Wang, X.; Liu, L.; Niu, Z.*. Carbon-based materials for lithium-ion capacitors. Materials Chemistry Frontiers, 2019, 3, 1265. Invited paper for special issue "Dedicated to the 100th Anniversary of Nankai University". [Link] 

  • (81) Zhang, Y.; Wang, Q.; Bi, S.; Yao, M.; Wan, F.; Niu, Z.*. Flexible All-in-one Zinc-ion Batteries. Nanoscale, 2019, 11,

    17630.2019 Nanoscale HOT Article Collection. [Link] 


  • (80) Zhang, L.; Wang, Y.; Niu, Z.*; Chen, J. Advanced nanostructured carbon-based materials for rechargeable lithium-
    sulfur batteries. Carbon, 2019, 141, 400. Invited Review. [Link]


  • (79) Huang, S.; Zhu, J.; Tian, J.; Niu, Z.*. Recent Progress in the Electrolytes of Aqueous Zinc-Ion Batteries. Chemistry-A European Journal. 2019, 25, 14480. Invited Review [Link]


  • (78) Bi, S.; Wan, F.; Huang, S.; Wang, X.; Niu, Z.*. A Flexible Quasi-Solid-State Bifunctional Device with Zinc-Ion Micro-
     Battery and Photodetector.ChemElectroChem. 2019, 6, 3933. [Link]

  • (77) Zhao, Z.; Wang, X.; Yao, M.; Liu, L.*; Niu, Z.*; Chen, J. Activated carbon felts with exfoliated graphene nanosheets
    for flexible all-solid-state supercapacitors. Chinese Chemical Letters, 2019, 30, 915. Invited paper for special issue
    "Distinguished/Excellent Young Scholars"    . [Link]


2018

  • (76) Wan, F.; Zhang, L.; Dai, X.; Wang, X.; Niu, Z.*; Chen, J. Aqueous rechargeable zinc/sodium vanadate batteries with
    enhanced performance from simultaneous insertion of dual carriers. Nature Communications, 2018, 9, 1656. [Link]

    能源学人H+和Zn+共嵌的高能量密度水系锌离子电池体系
     


  • (75) Yao, M.; Wang, R.; Zhao, Z.; Liu, Y.; Niu, Z.*; Chen, J. A Flexible All-in-One Lithium-Sulfur Battery. ACS Nano. 2018, 12, 12503. [Link]


    材料牛一体化柔性锂硫电池
     


  • (74) Zhang, L.; Chen, X.; Wan, F.; Niu, Z.*; Wang, Y.*; Zhang, Q.*; Chen, J. Enhanced Electrochemical Kinetics and
    Polysulfide Traps of Indium Nitride for Highly Stable Lithium-Sulfur Batteries. ACS Nano,2018,12,9578. [Link]

    材料牛用于抑制多硫化物“穿梭效应”的 氮化铟改性隔膜
     


  • (73) Lu, Y.; Zhang, Q.; Li, L.; Niu, Z.; Chen, J.* Design Strategies Toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries. Chem, 2018,4,1. [Link]


  • (72) Lu, Y.; Li, L.; Zhang, Q.; Niu, Z.; Chen, J.* Electrolyte and Interface Engineering for Solid-State Sodium Batteries.
    Joule, 2018,2,1747. [Link]


  • (71) Wan,  F.; Zhang, L.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.An Aqueous Rechargeable  Zinc-Organic Battery with Hybrid
     Mechanism. Advanced Functional Materials,2018, 1804975. [Link]


  • (70) Wang, X.; Wan, F.; Zhang, L.; Zhao, Z.; Niu, Z.*; Chen, J. Large‐Area Reduced Graphene Oxide Composite Films for
    Flexible Asymmetric Sandwich and Microsized Supercapacitors. Advanced Functional Materials, 2018, 28, 1707247.
    [Link] 

    搜狐用于柔性不对称夹层和微型超级电容器的大面积还原氧化石墨烯复合膜
     

  • (69) Dai, X.; Wan, F.; Zhang, L.; Cao, H.; Niu, Z.* Freestanding graphene/VO2 composite films for highly stable aqueous
     Zn-ion batteries with superior rate  performance. Energy Storage Materials, 2018, 17, 143. [Link]


  • (68) Han, M.; Wang, X.; Chen, C.; Zou, M.; Niu, Z.*; Yang, Q.-H.; Cao, A.; Song, L.; Chen, J.; Xie, S.  All-solid-state
    supercapacitors with superior compressive strength and volumetric capacitance. Energy Storage Materials, 2018, 13, 119. [Link]


  • (67) Wang, Q.; Wang, X.; Wan, F.; Chen, K.; Niu, Z.*; Chen, J. An All-freeze-casting Strategy to Design Typographical
    Supercapacitors with Integrated Architectures. Small, 2018, 14, 1800280. [Link] 


  • (66) Chen, K.; Cao, J.; Lu, Q.; Wang, Q.; Yao, M.; Han, M.; Niu, Z*.; Chen, J.  Sulfur nanoparticles encapsulated in reduced
     graphene oxide nanotubes for  flexible lithium-sulfur batteries. Nano Research.2018,  11, 1345. [Link]



  • (65) Zhang,  L.; Wan, F.; Wang, X.; Cao, H.; Dai, X.; Niu, Z.*; Wang, Y.*; Chen, J.  Dual-Functional Graphene Carbon as
     Polysulfide Trapper for High-Performance  Lithium Sulfur Batteries. ACS applied materials & interfaces,2018,  10, 5594. [Link]


  • (64) Zhou, D.; Niu, Z.; Niu, T.* Surface Reconstruction of Germanium: Hydrogen Intercalation and Graphene Protection. The Journal of Physical Chemistry C, 2018, 122, 21874. [Link]


  • (63) Wang, J.; Liu, J.; Cai, Y.; Cheng, F.; Niu, Z.*; Chen, J.* Super P Carbon Modified Lithium Anode for High-Performance Li−O2 Batteries. ChemElectroChem, 2018, 5, 1702. [Link]


  • (62) Liu, L.*; Niu, Z.; Chen, J. Flexible supercapacitors based on carbon nanotubes. Chinese Chemical Letters,2018,
     29,571. Invited Review. [Link]

  • (61) Jiang, S.; Lu, Y.; Lu, Y.; Han, M.; Li, H.; Tao, Z.; Niu, Z.*; Chen, J.  Nafion/TiO2-Coated Li Anode for Stable Lithium-
     Sulfur Batteries. Chemistry-An Asian journal, 2018, 13, 1379. VIP [Link]


  • (60) Wang, R.; Wang, Q.; Yao, M.; Chen, K.; Wang, X.; Liu, L.*; Niu, Z.; Chen, J. Flexible ultrathin all-solid-state
    supercapacitors. Rare Metals, 2018, 37, 536. Invited Article. [Link]

  • (59) Chen, K.; Wang, Q.; Niu, Z.*; Chen, J. Graphene-based materials for flexible energy  storage devices. Journal of
     Energy  Chemistry.     2018, 27, 12. Invited Review. [Link]


  • (58) Wan, F.; Wang, X.; Bi, S.; Niu, Z.*; Chen, J.  Freestanding reduced graphene oxide/sodium vanadate composite films
     for  flexible aqueous zinc-ion batteries. SCIENCE CHINA Chemistry. 2018. Accepted. Invited Article. [Link]


2017

  • (57) Chen, C.; Cao, J.; Lu, Q.; Wang, X.; Song, L.; Niu, Z*.; Chen, J. Foldable All-Solid-State Supercapacitors Integrated with Photodetectors. Advanced Functional Materials .2017, 27. 1604639. [Link]


  • (56) Chen, C.; Cao, J.; Wang, X.; Lu, Q.; Han, M.; Wang, Q.; Li, H.; Dai, H.; Niu, Z*.; Chen, J.; Xie S, Highly stretchable integrated system for micro-supercapacitor with AC line filtering and UV detector, Nano Energy, 2017, 42, 187. [Link]


     材料牛可拉伸微型超级电容器

     

  • (55) Lu, Q.; Wang, X.; Cao, J.; Chen, C.; Chen, K.; Zhao, Z.; Niu, Z.*; Chen, J. Freestanding carbon fiber cloth/sulfur composites for flexible room-temperature sodium-sulfur batteries. Energy Storage Materials. 2017, 8, 77. [Link]


  • (54) Cao, J.; Chen, C.; Chen, K.; Lu, Q.; Wang, Q.; Zhou, P.; Liu, D.; Song, L.; Niu, Z.*; Chen, J. High-strength graphene composite films by molecular level couplings for flexible supercapacitors with high volumetric capacitance. Journal of Materials Chemistry A. 2017, 5, 15008. [Link]



  • (53) Wang, X.; Lu, Q.; Chen, C.; Han, M.; Wang, Q.; Li, H.; Niu, Z.*; Chen, J. A Consecutive Spray Printing Strategy to Construct and Integrate Diverse Supercapacitors on Various Substrates. ACS applied materials & interfaces .2017, 9,
     28612. [Link]


  • (52) Liu, L.; Niu, Z*.; Chen, J. Design and integration of flexible planar micro-supercapacitors. Nano Research .2017, 10, 1524. Invited Review. [Link]


  • (51) Luo, S.; Yao, M.; Lei, S.; Yan, P.; Wei, X.; Wang, X.; Liu, L*.; Niu, Z*. Freestanding reduced graphene oxide-sulfur composite films for highly stable lithium-sulfur batteries. Nanoscale .2017, 9,4646. [Link]
     


  • (50) Lu, Y.; Zhao, Q.; Miao, L.; Tao, Z.; Niu, Z.; Chen, J*. Flexible and Free-Standing Organic/Carbon Nanotubes Hybrid Films as Cathode for Rechargeable Lithium-Ion Batteries. Journal of Physical Chemistry C. 2017, 121, 14498. [Link]


  • (49) Yu, D.; Wang, H.*; Yang, J.; Niu, Z.; Lu, H.*; Yang, Y.; Cheng, L.; Guo, L*. Dye Wastewater Cleanup by Graphene Composite Paper for Tailorable Supercapacitors. ACS applied materials & interfaces. 2017, 9, 21298. [Link]
     


      


  • (48) Wang, C.; Wu, C.; Chen, S.; Zhao, X.; Xu, W.; Niu, Z.; Song, L*. Membrane-assisted assembly strategy of flexible electrodes for multifunctional supercapacitors. Carbon. 2017, 125, 419. [Link]


          

  • (47) Shi, Y.; Wang, Y.; Yu, Y.; Niu, Z.; Zhang, B*. N-doped graphene wrapped hexagonal metallic cobalt hierarchical
    nanosheet as a highly efficient water oxidation electrocatalyst. Journal of Materials Chemistry A .2017, 5, 8897. [Link]

  • (46) Li, J.; Li, X.*; Xiong, D.; Hao, Y.; Kou, H.; Liu, W.; Li, D.; Niu, Z. Novel iodine-doped reduced graphene oxide anode
    for sodium ion batteries. RSC Advances,2017, 7, 55060.


2016

  • (45) Liu, L.; Niu, Z.*; Chen, J*. Unconventional supercapacitors from nanocarbon-based electrode materials to device configurations. Chemical Society Reviews. 2016, 45, 4340. [Link]

  • (44) Cao, J.; Chen, C.; Zhao, Q.; Zhang, N.; Lu, Q.; Wang, X.; Niu, Z.*; Chen, J. A Flexible Nanostructured Paper of a Reduced Graphene Oxide-Sulfur Composite for High- Performance Lithium-Sulfur Batteries with Unconventional  Configurations. Advanced Materials. 2016, 28, 9629. [Link]


     材料牛用于非常规构造的高性能锂硫电池的柔性纳米结构还原氧化石墨烯复合材料纸

     

  • (43) Luan, P.; Zhang, N.; Zhou, W*.; Niu, Z.*; Zhang, Q.; Cai, L.; Zhang, X.; Yang, F.; Fan, Q.; Zhou, W.; Xiao, Z.; Gu, X.; Chen, H.; Li, K.; Xiao, S.; Wang, Y.; Liu, H.; Xie, S*. Epidermal Supercapacitor with High Performance. Advanced Functional Materials. 2016, 26, 8178. [Link]

  • (42) Rui,X.; Tang, Y.; Malyi, O. I.; Gusak, A.; Zhang, Y.; Niu, Z.; Tan, H. T.; Persson,C.; Chen, X.; Chen, Z*.; Yan, Q*.Ambient dissolution-recrystallization towards large-scale preparation of V2O5 nanobelts for high-energy battery applications. Nano  Energy. 2016, 22, 583. [Link]

  • (41) Liu, D.;Xu, W.; Liu, Q.; He, Q.; Haleem, Y. A.; Wang, C.; Xiang, T.; Zou, C.; Chu, W.; Zhong, J.; Niu, Z.; Song, L*. Unsaturated-sulfur-rich MoS2 nanosheets decorated on free-standing SWNT film: Synthesis, characterization and electrocatalytic application. Nano Research .2016, 9, 2079. [Link]

  • (40) Wang, C.; Liu, D.; Chen, S.; Sang, Y.; Haleem, Y. A.; Wu, C.; Xu, W.; Fang, Q.; Habib, M.; Cao, J.; Niu, Z.; Ajayan, P. M*.; Song, L*. All-Carbon Ultrafast Supercapacitor by Integrating Multidimensional Nanocarbons. Small. 2016, 12, 5684. [Link]


  • (39) Yan, H.; Guo, Y.; Lai, S.; Sun, X.; Niu, Z.; Wan, P*. Flexible Room-Temperature Gas Sensors of Nanocomposite Network-Coated Papers. Chemistryselect. 2016, 1, 2816. [Link]

  • (38) He, Q.; Xu, W.; Chen, S.; Liu, D.; Habib, M.; Liu, Q.; Wang, C.; Haleem, Y. A.; Xiang, T.; Wu, C.; Khalil, A.; Fang, Q.; Niu, Z.; Song, L*. In situ growth of metallic 1T-WS2 nanoislands on single-walled carbon nanotube films for improved electrochemical performance. Rsc Advances. 2016, 6, 87919. [Link]


2015

  • (37) Niu, Z*.; Zhou, W.; Chen, X.; Chen, J*.; Xie, S. Highly Compressible and All-Solid-State Supercapacitors Based on Nanostructured Composite Sponge. Advanced Materials. 2015, 27, 6002. [Link]

  • (36) Niu, Z.; Liu, L.; Zhang, L.; Zhou, W.*; Chen, X.*; Xie, S. Programmable Nanocarbon-Based Architectures for Flexible Supercapacitors. Advanced Energy Materials. 2015, 5,1500677. [Link]

  • (35) Zhang, K.; Guo, C.; Zhao, Q.; Niu, Z*.; Chen, J*. High-Performance Organic Lithium Batteries with an Ether-Based Electrolyte and 9,10-Anthraquinone (AQ)/CMK-3 Cathode. Advanced Science. 2015, 2, 500018. [Link]

  • (34) Zhu, Z.; Cheng, F.; Hu, Z.; Niu, Z*.; Chen, J*. Highly stable and ultrafast electrode reaction of graphite for sodium    ion batteries. Journal of Power Sources. 2015, 293, 626. [Link]


2014

  • (33) Niu, Z.; Liu, L.; Zhang, L.; Shao, Q.; Zhou, W.; Chen, X*.; Xie, S. A Universal Strategy to Prepare Functional Porous Graphene Hybrid Architectures. Advanced Materials. 2014, 26, 3681. [Link]

  • (32) Liu, L.; Niu, Z.; Zhang, L.; Zhou, W.; Chen, X*.; Xie, S. Nanostructured Graphene Composite Papers for  Highly

    Flexible and Foldable Supercapacitors. Advanced Materials. 2014, 26, 4855. [Link]


  • (31) Niu, Z.; Liu, L.; Zhang, L.; Chen, X*. Porous Graphene Materials for Water Remediation. Small. 2014, 10, 3434. [Link]

  • (30) Zhu, B.; Niu, Z.; Wang, H.; Leow, W. R.; Wang, H.; Li, Y.; Zheng, L.; Wei, J.; Huo, F.; Chen, X*. Microstructured

    Graphene Arrays for Highly Sensitive Flexible Tactile Sensors. Small. 2014, 10, 3625. [Link]


  • (29) Shao, Q.; Niu, Z.; Hirtz, M.; Jiang, L.; Liu, Y.; Wang, Z.; Chen, X*. High-Performance and Tailorable Pressure Sensor Based on Ultrathin Conductive Polymer Film. Small .2014, 10, 1466. [Link]

  • (28) Liu, L.; Niu, Z.; Zhang, L.; Chen, X*. Structural Diversity of Bulky Graphene Materials. Small .2014, 10, 2200. [Link]

2013

  • (27) Niu, Z.; Zhang, L.; Liu, L.; Zhu, B.; Dong, H.; Chen, X*. All-Solid-State Flexible Ultrathin Micro-Supercapacitors Based on Graphene. Advanced Materials. 2013, 25, 4035. [Link]

  • (26) Niu, Z.; Dong, H.; Zhu, B.; Li, J.; Hng, H. H.; Zhou, W*.; Chen, X.*; Xie, S. Highly Stretchable, Integrated Supercapacitors Based on Single-Walled Carbon Nanotube Films with Continuous Reticulate Architecture. Advanced Materials. 2013, 25, 1058. [Link]

  • (25) Niu, Z.; Zhou, W.*; Chen, J.; Feng, G.; Li, H.; Hu, Y.; Ma, W.; Dong, H.; Li, J.; Xie, S*. A Repeated Halving Approach to Fabricate Ultrathin Single-Walled Carbon Nanotube Films for Transparent Supercapacitors. Small. 2013, 9, 518. [Link]

  • (24) Li, J.; Niu, Z.; Zeng, Q.; Cai, L.; Zhang, X.; Dong, H.; Zhao, D.; Zhou, W.; Xie, S. In-Situ Raman Spectra of Single-Walled Carbon Nanotube/Epoxy Nanocomposite Film Under Strain. Journal of Nanoscience and Nanotechnology .2013, 13, 1145. [Link]


  • (23) Dong, H.; Zhang, X.; Niu, Z.; Zhao, D.; Li, J.; Cai, L.; Zhou, W.; Xie, S. Indium Tin Oxide Nanowires Grown by One-Step Thermal Evaporation-Deposition Process at Low Temperature. Journal of Nanoscience and Nanotechnology. 2013, 13, 1300. [Link]

2012

  • (22) Niu, Z.; Luan, P.; Shao, Q.; Dong, H.; Li, J.; Chen, J.; Zhao, D.; Cai, L.; Zhou, W*.; Chen, X.*; Xie, S. A "skeleton/skin" strategy for preparing ultrathin free-standing single-walled carbon nanotube/polyaniline films for high performance supercapacitor electrodes. Energy & Environmental Science. 2012, 5, 8726. [Link]

  • (21) Niu, Z.; Chen, J.; Hng, H. H.; Ma, J.; Chen, X*. A Leavening Strategy to Prepare Reduced Graphene Oxide Foams. Advanced materials .2012, 24, 4144. [Link]

  • (20) Niu, Z.; Ma, W.; Li, J.; Dong, H.; Ren, Y.; Zhao, D.; Zhou, W*.; Xie, S*. High-Strength Laminated Copper Matrix Nanocomposites Developed from a Single-Walled Carbon Nanotube Film with Continuous Reticulate Architecture. Advanced Functional Materials. 2012, 22, 5209. [Link]

  • (19) Dong, H.; Zhang, X.; Zhao, D.; Niu, Z.; Zeng, Q.; Li, J.; Cai, L.; Wang, Y.; Zhou, W*.; Gao, M.; Xie, S*. High performance bipolar resistive switching memory devices based on Zn2SnO4 nanowires. Nanoscale. 2012, 4, 2571. [Link]

  • (18) Niu, Z.; Du, J.; Cao, X.; Sun, Y.; Zhou, W.; Hng, H. H.; Ma, J.; Chen, X.*; Xie, S. Electrophoretic Build-Up of Alternately Multilayered Films and Micropatterns Based on Graphene Sheets and Nanoparticles and their Applications in Flexible Supercapacitors. Small. 2012, 8, 3201. [Link]

  • (17) Yin, S.; Niu, Z.; Chen, X*. Assembly of Graphene Sheets into 3D Macroscopic Structures. Small. 2012, 8, 2458. [Link]

  • (16) Zhou, W.; Ma, W.; Niu, Z.; Song, L.; Xie, S. Freestanding single-walled carbon nanotube bundle networks:
    Fabrication, properties and composites. Chinese Science Bulletin .2012, 57, 205. [Link]

2011

  • (15) Niu, Z.; Zhou, W.*; Chen, J.; Feng, G.; Li, H.; Ma, W.; Li, J.; Dong, H.; Ren, Y.; Zhao, D.; Xie, S*.  Compact-designed supercapacitors using free-standing single-walled carbon nanotube films. Energy & Environmental Science. 2011, 4, 1440. [Link]

  • (14) Li, J.; Gao, Y.; Ma, W.; Liu, L.; Zhang, Z.; Niu, Z.; Ren, Y.; Zhang, X.; Zeng, Q.; Dong, H.; Zhao, D.; Cai, L.; Zhou, W.; Xie, S*. High performance, freestanding and superthin carbon nanotube/epoxy nanocomposite films. Nanoscale .2011, 3, 3731. [Link]

  • (13) Niu, Z.; Ma, W.; Dong, H.; Li, J.; Zhou, W.*. Fabrication and electrochemical properties of free-standing single- walled carbon nanotube film electrodes. Chinese Physics B. 2011, 20. [Link]


2010

  • (12) Niu, Z.; Zhou, W.*; Ma, W.; Dong, H.; Li, J.; Zhang, X.; Zeng, Q.; Xie, S. Template Synthesis and Growth  Mechanism of Metal Nanowire/Carbon Nanotube Heterojunctions. Journal of Nanoscience and Nanotechnology. 2010, 10, 7583. [Link]

  • (11) Ma, W.; Feng, B.; Ren, Y.; Zeng, Q.; Niu, Z.; Li, J.; Zhang, X.; Dong, H.; Zhou, W.; Xie, S*. Large Third-Order Optical Nonlinearity in Directly Synthesized Single-Walled Carbon Nanotube Films. Journal of Nanoscience and Nanotechnology. 2010, 10, 7333. [Link]


2009

  • (10) Ma, W.; Liu, L.; Yang, R.; Zhang, T.; Zhang, Z.; Song, L.; Ren, Y.; Shen, J.; Niu, Z.; Zhou, W.; Xie, S*. Monitoring a
    Micromechanical Process in Macroscale Carbon Nanotube Films and Fibers. Advanced Materials. 2009, 21, 603. [Link]

  • (9) Ma, W.; Liu, L.; Zhang, Z*.; Yang, R.; Liu, G.; Zhang, T.; An, X.; Yi, X.; Ren, Y.; Niu, Z.; Li, J.; Dong, H.; Zhou, W.;
    Ajayan, P. M.; Xie, S*. High-Strength Composite Fibers: Realizing True Potential of Carbon Nanotubes in Polymer
    Matrix through Continuous Reticulate Architecture and Molecular Level Couplings. Nano letters. 2009, 9, 2855. [Link]

  • (8) Zhang, X.; Liu, D.; Zhang, L.; Li, W.; Gao, M.; Ma, W.; Ren, Y.; Zeng, Q.; Niu, Z.; Zhou, W.; Xie, S*. Synthesis of large-scale periodic ZnO nanorod arrays and its blue-shift of UV luminescence. Journal of Materials Chemistry .2009, 19, 962. [Link]

- 2008

  • (7) Niu, Z.; Fang, Y*. Effect of  temperature for synthesizing single-walled carbon nanotubes by catalytic  chemical vapor
     deposition over Mo-Co-MgO catalyst. Materials Research Bulletin. 2008, 43, 1393. [Link]


  • (6) Niu, Z.; Fang, Y*. The effect of composition of the catalysts on the  preparation of single-walled carbon nanotubes.
     Acta Physica Sinica. 2007, 56, 1796. [Link]


  • (5) Niu, Z.; Fang, Y*. Effects of  composition of catalysts on the preparation of single-walled carbon nanotubes
     synthesized over W-Co-MgO catalysts. Superlattices and Microstructures. 2007, 41, 62. [Link]


  • (4) Niu, Z.; Fang, Y*.  Surface-enhanced Raman scattering system of sample molecules in silver-modified  silver film.
     Spectrochimica Acta Part a-Molecular and Biomolecular Spectroscopy. 2007, 66,  712. [Link]


  • (3) Niu, Z.; Fang, Y*. A new  surface-enhanced Raman scattering system for C60 fullerene: Silver  nano-particles/C60/
     silver film. Vibrational Spectroscopy. 2007, 43, 415. [Link]


  • (2) Niu, Z.; Fang, Y*.  Surface-enhanced Raman scattering of single-walled carbon nanotubes on  silver-coated and gold-
     coated filter paper. J. Colloid Interface Sci. 2006, 303,  224. [Link]


  • (1) Niu, Z.; Fang, Y*. Effects of synthesis time for synthesizing single-walled  carbon nanotubes over Mo-Fe-MgO catalyst and suggested
     growth mechanism.     Journal of Crystal Growth.2006,297,228. [Link]


Patents

Books

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