学术论文
一、通讯作者论文
[26]Mingxia Zhou†, Kai Cui†, Tian-Shuai Wang, Zhihong Luo, Li Chen, Yun Zheng, Bin Li, Bin Shi, Jiangtao Liu, Jiao-Jing Shao*, Guangmin Zhou*, Shubin Yang, Yan-Bing He*,"
Bimetal fluorides with adjustable vacancy concentration reinforcing lon transport in polyethylene oxide electrolyte",ACS Nano,2024,Volume 18, 26435-27102
[24]Min Zheng, Zhihong Luo, Ya Song, Mingxia Zhou, Chong Guo, Yan Shi, Long Li, Qi Sun, Bin Shi, Zonglin Yi, Fangyuan Su, Jiaojing Shao*, Guangmin Zhou,
Carbon-coated nitrogen, vanadium co-doped MXene interlayer for enhanced polysulfide shuttling inhibition in lithium-sulfur batteries,Journal of Power Sources,Volume 580,2023,233445.
[23] Min Zheng, Chong Guo, Zhihong Luo, Jie Wu, Xiaoning Tang, Long Li, Qi Sun, Quansheng Ouyang, Bin Shi, Huali Nie, Jiao-Jing Shao*, Guangmin Zhou,
Molybdenum disulfide (MoS2)/porous silica nanosheet composite barrier for polysulfide shuttling inhibition in lithium-sulfur batteries,Composites Part B: Engineering,2023,110898, 1359-8368
[22]Chong Guo, Zhi-Hong Luo, Ming-Xia Zhou, Xinru Wu, Yan Shi, Qinyou An, Jiao-Jing Shao*, Guangmin Zhou,
Clay-Originated Two-Dimensional Holey Silica Separator for Dendrite-Free Lithium Metal Anode
, Small,
2023, 2301428.
[21]Zhihong Luo, Weiyong Li, Chong Guo, Ya Song, Mingxia Zhou, Yan Shi, Jing Xu, Long Li, Bin Shi, Quansheng Ouyang, Jiao-Jing Shao*, Guangmin Zhou,
Two-dimensional silica enhanced solid polymer electrolyte for lithium metal batteries,Particuology,2024,85:146-154
[20]Ya Song, Shaokuan Zhu, Xiang Long, Zhihong Luo, Qi Sun, Chuannan Geng,Huan Li, Zhiyuan Han, Quansheng Ouyang, Guangmin Zhou, Jiaojing Shao*.
Mesoporous hydroxyl vanadium oxide/nitrogen-doped graphene enabled fast polysulfide conversion kinetics for high-performance lithium-sulfur batteries. Electrochimica Acta,2023,441,141875
[19] Xiang Long , Zhi-Hong Luo , Wen-Hua Zhou , Shao-Kuan Zhu ,Ya Song , Huan Li , Chuan-Nan Geng , Bin Shi , Zhi-Yuan Han , Guang-Min Zhou ,Wei Lv , Jiao-Jing Shao* ,
Two-dimensional Montmorillonite-based Heterostructure forHigh-Rate and Long-Life Lithium-Sulfur Batteries, Energy Storage Materials , 2022, 52:120-129
[18] Ya Song, Xiang Long, Zhihong Luo, Chong Guo, Chuan-Nan Geng, Quan-Sheng Ouyang, Zhiyuan Han, Guangmin Zhou, Jiao-Jing Shao*
,
Solid Carbon Spheres with Interconnected Open Pore Channels Enabling High-Efficient Polysulfide Conversion for High-Rate Lithium-Sulfur Batteries,
ACS Appl. Mater. Interfaces 2022, 14, 28, 32183–32195
[13] Wei-Yong Li, Zhi-Hong Luo, Xiang Long, Jia-Ying Long, Chi Pang, Huan Li, Xing Zhi, Bin Shi, Jiao-Jing Shao* and Yan-Bing He, "
Cation Vacancy-Boosted Lewis Acid-Base Interactions in a Polymer Electrolyte for High-Performance Lithium Metal Batteries", ACS Applied Materials &Interfaces, 2021,
13, 51107−51116
[10] 邱志旭, 朱绍宽, 魏宇霄, 龙家英, 黄东创, 邵姣婧*, "硫/多壁碳纳米管/四氧化三铁正极材料的制备及其电化学性能研究", 无机盐工业, 2021.
[8] Dao-Yi Wu, Wen-Hua Zhou, Lin-Yi He, Hai-Yan Tang, Xiao-Hui Xu, Quan-Sheng Ouyang, and Jiao-Jing Shao*, “
Micro-Corrugated Graphene Sheet Enabled High-Performance All-Solid-State Film Supercapacitor”, Carbon, 2020, 160, 156-163.
[7] Xiao-Ning Tang, Chen-Zhe Liu, Xiang-Rong Chen, Ya-Qian Deng, Xiao-Hu Chen, Jiao-Jing Shao* and Quan-Hong Yang, “
Graphene aerogel derived by purification-free graphite oxide for high performance supercapacitor electrodes”, Carbon, 2019, 146, 147−154.
[6] Mei-Li Liu, Meng Huang, Lian-Yu Tian, Li-Hong Zhao, Bin Ding, De-Bin Kong, Quan-Hong Yang and Jiao-Jing Shao*, “
Two-Dimensional Nanochannel Arrays Based on Flexible Montmorillonite Membranes”, ACS Applied Materials & Interfaces, 2018, 10, 44915−44923.
[2] Xiang rong Chen, Ting Xiang, Zhengjie Li, Yanlin Wu, Hailong Wu, Zhaofa Cheng, Jiao-Jing Shao*, Quan-Hong Yang, “
A Planar Graphene-based Film Supercapacitor Formed by Liquid-Air Interfacial Assembly”, Advanced Materials Interfaces, 2017, 4(9), 1601127.
二、第一作者论文
[2] Lifang Zhang, Jiao-Jing Shao (共同第一作者), Weiguo Zhang, Chen Zhang, Xiaoyu Zheng, Hongda Du, Quan-Hong Yang*, “
Graphene-Based Porous Catalyst with High Stability and Activity for the Methanol Oxidation Reaction”, Journal of Physical Chemistry C, 2014, 118 (45), 25918–25923.
[1] Jiao-Jing Shao, Wei Lv, Quan gui Guo, Chen Zhang, Qiang Xu, Quan-Hong Yang* and Fei yu Kang, “
Hybridization of graphene oxide and carbon nanotubes at the liquid/air interface”, Chemical Communications, 2012, 48 (31), 3706-3708.
三、合作者论文
[5] Wei Lv, Zheng-jie Li, Guang-min Zhou, Jiao-Jing Shao, Debin Kong, Xiao-yu Zheng, Bao-hua Li, Feng Li, Fei-yu Kang, Quan-Hong Yang*, “
Tailoring Microstructure of Graphene-Based Membrane by Controlled Removal of Trapped Water Inspired by the Phase Diagram”, Advanced Functional Materials, 2014, 24, 3456–3463.
[4] Xiao yu Zheng, Wei Lv, Ying Tao, Jiao-Jing Shao, Chen Zhang, Donghai Liu, Jia-yan Luo, Da-Wei Wang, Quan-Hong Yang*, “
Oriented and Interlinked Porous Carbon Nanosheets with an Extraordinary Capacitive Performance”, Chemistry of Materials, 2014, 26 (23), 6896–6903.
[3] Li, Z.; Lv, W.; Zhang, C.; Qin, J.; Wei, W.; Shao, J.; Wang, D.; Li, B.; Kang, F.; Yang, Q.-H.*
Nanospace-confined formation of flattened Sn sheets in pre-seeded graphenes for lithium ion batteries, Nanoscale, 2014, 6, 9554-9558.
[2] Hui Wu,Wei Lv, Jiao-Jing Shao, Chen Zhang, Ming-bo Wu, Bao-hua Li, Quan-Hong Yang*, “
pH-dependent size, surface chemistry and electrochemical properties of graphene oxide”, New Carbon Materials, 2013, 28(5), 327-335.
[1] Li-Fang Zhang, Wei Wei, Wei Lu, Jiao-Jing Shao, Hong-Da Du and Quan-Hong Yang*, “
Graphene-based macroform: Preparation, properties and applications”, New Carbon Materials, 2013, 28(3), 161-171.