彭成信  储能材料与电池技术课题组

职称

副教授

任职

导师类型

硕士生导师

所属学科专业

材料科学与工程

电话

邮箱

cxpeng@usst.edu.cn

一、学习工作经历

2021.06-至今

js6666金沙登录入口-官方入口

副教授/硕士生导师

2017.09-2021.06  

js6666金沙登录入口-官方入口材料学院

副教授/硕士生导师

2012.11-2017.03

National   University of Singapore(新加坡国立大学)

Research   Fellow (Prof. Kian Ping Loh组)

2011.06-2012.10

厦门大学大学化学化工学院 

项目研究员(杨勇教授组)

2009.03-2011.04

同济大学材料科学与工程学院

2005.09-2008.09

上海交通大学化学化工学院

应用化学        工学博士

二、研究方向

 (1) 锂离子电池、钠离子电池材料的设计开发；

（2）镁金属电池、水系电池、液流电池、固态电池等新型化学电源体系；

（3）材料电化学储能机理：多电子电极反应、离子传输动力学及电极界面电化学研究。

三、科研成果

从事锂/钠离子电池及新型化学电源体系镁/锌金属电池、有机液流电池、固态电池等的材料设计和研究开发工作。主持国家自然科学基金面上项目2项、上海市“浦江人才”计划等科研项目等，以一作/通讯在Nature Energy,Nature Communications,Journal of   the American Chemical Society, Advanced Materials, Advanced Functional   Materials(4), ACS Nano, Nano Energy, Journal of Materials Chemistry A等国际期刊上发表50多篇文章，授权专利两项。

本课题组与北京大学材料学院、中国科学院物理研究所、中国科学院大连化学物理所、南开大学化学学院、厦门大学化学系等科研单位有着密切的合作，热烈欢迎各位优秀学子加盟！！！

代表性项目：

（1）国家自然科学基金面上项目No.22179085，项目负责人，研究时限：2022/1-2025/12

（2）国家自然科学基金面上项目No.21875141，项目负责人，研究时限：2019/1-2022/12

（3）上海市“浦江人才”计划项目No.   18PJ1409000，项目负责人，研究时限：2018/6-2020/6

（4）特种化学电源国家重点实验室课题，项目负责人，研究时限：2018/6-2020/6

（5）先进能源材料化学教育部重点实验室(南开大学)课题，项目负责人，研究时限：2021/1-2022/12

（6）北京凝聚态物理国家研究中心(中国科学院物理研究所)课题，项目负责人，研究时限：2020/12-2022/11

代表性科研论文：

（1）Chengxin Peng^#,   Guo-Hong Ning^#, Jie   Su^#, Guiming Zhong,   Wei Tang, Bingbing Tian, Chenliang Su, Dingyi Yu, Lianhai Zu, Jinhu Yang,   Man-Fai Ng, Yong-Sheng Hu, Yong Yang*, Michel Armand and Kian Ping Loh*,   Reversible Multielectron Redox Chemistry of π-Conjugated N-heteroaromatic   Molecule-based Organic Cathodes, Nature Energy, 2017, 2, 17074. (Nature子刊, ESI,   Highly Cited Papers)

（2）Zedong Zhao^#, Rong Wang^#, Chengxin   Peng*,   Wuji Chen, Tianqi Wu, Bo Hu, Weijun Weng, Ying Yao, Jiaxi Zeng, Zhihong Chen,   Peiying Liu, Yicheng Liu, Guisheng Li, Jia Guo*, Hongbin Lu*, and Zaiping   Guo*, Horizontally Arranged Zinc Platelet Electrodeposits Modulated by   Fluorinated Covalent Organic Framework Film for High-Rate and Durable Aqueous   Zinc Ion Batteries, Nature Communications, 2021,12, 6606.

（3）Aoxuan Wang, Linlin Xue, Longyuan Guo, Chengxin Peng*, Jiayan   Luo*, Gradient   Perovskite Ionic–Electronic Heterointerphases for Deep Cycling Mg Metal   Anodes, Advanced   Functional Materials,   2022, 2208735.

（4）Ya-Nan Zhou, Zichun Xiao, Duzhao Han, Lianping Yang,   Jiyong Zhang, Wei Tang*, Chengyong Shu, Chengxin   Peng*, and   Dezhong Zhou*, Approaching Practically Accessible and Environmentally   Adaptive Sodium Metal Batteries with High Loading Cathodes through In Situ   Interlock Interface, Advanced Functional Materials, 2022, 2111314.

（5）Jiangqi Zhou^#, Tiantian Wu^#, Chengxin Peng*, Yu Pan, Xia   Chen, Chengyong Shu, Long Kong, Wei Tang*, Shu-Lei Chou*, Packing Sulfur   Species by Phosphorene-derived Catalytic Interface for Electrolyte-Lean   Lithium–Sulfur Batteries, Advanced Functional Materials, 2021, 32, 2106966.

（6）Yuwei   Zhao, Donghong Wang, Xinliang Li, Qi Yang, Ying Guo, Funian Mo, Qing Li, Chengxin Peng*, Hongfei Li,   and Chunyi Zhi*, Initiating a Reversible Aqueous Zn/Sulfur Battery through a   “Liquid Film”, Advanced Materials, 2020, 32, 2003070.

（7）Yu Chen^#, Weimin Zhao^#,   Quanhai Zhang, Guangzhi Yang, Jianming Zheng, Wei Tang*, Qunjie Xu, Chunyan   Lai*, Junhe Yang, and Chengxin Peng*, Armoring LiNi_1/3Co_1/3Mn_1/3O₂   Cathode with Reliable Fluorinated Organic–Inorganic Hybrid Interphase   Layer toward Durable High Rate Battery, Advanced Functional Materials, 2020, 30, 2000396.

（8）Biao   Kong^#, Lianhai Zu^#, Chengxin Peng*, Yan Zhang, Wei Zhang, Jing Tang, Cordelia   Selomulya, Liudi Zhang, Hanxing Chen, Yang Wang, Yang Liu, Haili He, Jing   Wei, Xiaocheng Lin, Wei Luo, Jianping Yang, Zaiwang Zhao, Yong Liu, Jinhu   Yang* and Dongyuan Zhao*, Direct Superassemblies of Freestanding Metal-Carbon   Frameworks Featuring Reversible Crystalline-Phase Transformation for   Electrochemical Sodium Storage, Journal of the American Chemical Society,   2016, 138 (50), 16533–16541. (ESI, Highly Cited Papers)

（9）Chengxin Peng^#,   Bingdi Chen^#, Yao   Qin, Shihe Yang, Chunzhong Li, Yuanhui Zuo, Siyang Liu and Jinhu Yang*,   Facile Ultrasonic Synthesis of CoO Quantum dot/Graphene Nanosheet Composites   with High Lithium Storage Capacity, ACS Nano, 2012, 6, 1074–1081. (ESI,   Highly Cited Papers)

2023

（1）Guanhua Zhang, Yue Sun, Chaoxin Wu,   Xiaoyu Yan, Weimin Zhao, Chengxin   Peng*, Low-cost and highly thermally conductive lauric acid–paraffin–expanded   graphite multifunctional composite phase change materials for quenching thermal   runaway of lithium-ion battery, Energy Reports, 2023, 9, 2538–2547.

（2）Guangzhi Yang, Jiangqi Zhou, Zhenwang Zhang, Yuanzhe Song, Wei Li,   Zhihong Chen, Weiqing Chu, Jinshuo Chen, Yuhua Xue, Chengxin Peng*, Wei Tang*, Engineering 3D Vertically-Aligned   Lamellar-Structured Graphene Incorporated with Polypyrrole for   Thickness-Independent Zinc-ion Hybrid Supercapacitor, Journal of Alloys and   Compounds, 2023, 938:   168447-168447.

（3）Huixin Chen, Lingyi Meng, Hongjun Yue, Chengxin Peng, Qiaobao Zhang*, Guiming Zhong*, Ding Chen*, Deciphering   the potassium storage phase conversion mechanism of phosphorus by combined   solid-state NMR spectroscopy and density functional theory calculations, Journal of Energy   Chemistry, 2023, 79, 45-53.

2022

（1）Aoxuan Wang, Linlin Xue, Longyuan Guo, Chengxin Peng*, Jiayan Luo*, Gradient Perovskite Ionic–Electronic Heterointerphases for Deep Cycling   Mg Metal Anodes, Advanced Functional Materials, 2022, 2208735.

（2）Ya-Nan Zhou, Zichun Xiao, Duzhao Han, Lianping Yang,   Jiyong Zhang, Wei Tang*, Chengyong Shu, Chengxin   Peng*, and Dezhong Zhou*, Approaching Practically Accessible and   Environmentally Adaptive Sodium Metal Batteries with High Loading Cathodes   through In Situ Interlock Interface, Advanced Functional Materials,   2022, 2111314.

（3）Chao Xu, Yujie Jiang, Kang Xu, Zhihong Chen, Wanying Chang, Nannan Cen,   Jiaxi Ni, Rui Xu, Yuedong Huang, Patimai Abulaiti, Ayizulamu Tuohetimaiti,   Chunyan Lai*, and Chengxin Peng*,   Actualizing a High-Energy Bipolar-Stacked Solid-State Battery with Low-Cost   Mechanically Robust Nylon Mesh-Reinforced Composite Polymer Electrolyte   Membranes, ACS Applied Materials & Interfaces, 2022, 14(2), 2805-2816.

（4）Chengxin Peng, Zhihong Chen, Hong Zhang, Zhongxin Liu, Jiangfeng Zheng, Jiangqi Zhou,   Zhanhui Jia, Quanhai Zhang, Chunyan Lai*, Yuping Wu*, Wei Tang*, Stress-Tolerant   Printed Architectures Toward Stable Cycling of Ultrahigh-Loading Ni-rich Layered   Oxide Cathode for Wearable Energy Storage Device, Energy & Fuels (ACS   Publications), 2022, 36(9): 5009-5017.    

（5）Weimin Zhao, Guorui Zheng, Yuchen Ji, Chengxin Peng, Fucheng Ren, Ming Liu, Feng Pan*, Yong Yang*, Modulation   and quantitative study of conformal electrode-electrolyte interfacial   chemistry toward high-energy-density LiNi_0.6Co_0.2Mn_0.2O₂‖SiO-C   pouch cells, Energy   Storage Materials, 2022, 53, 424-434.

（6）Zichun Xiao, Ya-Nan Zhou, Xiaowei Wang, Jiawu Cui, Mingyu Yang, Chengyong   Shu, Duzhao Han, Jiangqi Zhou, Chengxin   Peng, Wei Tang* and Yuping Wu, Dual-Layered 3D Composite Skeleton Enables   Spatially Ordered Lithium Plating/Stripping for Lithium Metal Batteries with   Ultra-Low N/P Ratios, ACS   Applied Energy Materials, 2022, 5, 14071−14080.

（7）Jiangqi Zhou, Wei Tang*, Chengyong Shu, Guo-Hong Ning, Chengxin Peng, Long Kong, Yong Liu*,   Yuping Wu*, Well-defined Metal-N4 Sites Coordinated Defective Carbon as   Efficient Electrocatalysts for High Performance Lithium-Sulfur Batteries, Materials Today Energy, 2022,   30,101151

（8）Yang Guangzhi^⁎, Meng Meng, Wang Xiaoqiang, Peng Chengxin, Xue Yuhua, Yang Junhe,   Tang Zhihong^⁎, Three-dimensional crumpled reduced graphene   oxide/Co₉S₈ nanocomposites as efficient electrocatalyst   for oxygen evolution reaction, Journal   of Alloys and Compounds, 2022,905,164253.

2021

（1）Zedong Zhao^#, Rong Wang^#, Chengxin   Peng*, Wuji Chen, Tianqi Wu, Bo Hu, Weijun Weng, Ying Yao, Jiaxi   Zeng, Zhihong Chen, Peiying Liu, Yicheng Liu, Guisheng Li, Jia Guo*, Hongbin   Lu*, and Zaiping Guo*, Horizontally Arranged Zinc Platelet Electrodeposits   Modulated by Fluorinated Covalent Organic Framework Film for High-Rate and   Durable Aqueous Zinc Ion Batteries, Nature Communications, 2021,12, 6606.

（2）Jiangqi Zhou^#, Tiantian Wu^#, Chengxin Peng*, Yu Pan, Xia   Chen, Chengyong Shu, Long Kong, Wei Tang*, Shu-Lei Chou*, Packing Sulfur   Species by Phosphorene-derived Catalytic Interface for Electrolyte-Lean   Lithium–Sulfur Batteries, Advanced Functional Materials, 2021, 32, 2106966.

（3）Quanhai   Zhang^#, Jiangqi Zhou^#, Zhihong Chen^#, Chao   Xu, Wei Tang*, Guangzhi Yang, Chunyan Lai*, Qunjie Xu, Junhe Yang, Chengxin Peng*, Direct Ink Writing   of Moldable Electrochemical Energy Storage Devices: Ongoing Progress, Challenges,   and Prospects, Advanced Engineering Materials, 2021, 23, 2100068.

（4）Jiangqi Zhou, Shilin Zhang, Ya-Nan Zhou, Wei   Tang*, Junhe Yang, Chengxin Peng*, Zaiping Guo*, Biomass-derived Carbon for High-performance Supercapacitors:   Current Status and Perspective, Electrochemical Energy Reviews,   2021, 4, 219–248.

（5）Zedong Zhao, Minqiang Sun, Tianqi Wu, Peng Wang, Long Zhang, Chengxin Peng*, Chongyang   Yang*, and Hongbin Lu*, A Bifunctional-Modulated Conformal Li/Mn-Rich Layered   Cathode for Fast-Charging, High Volumetric Density and Durable Li-Ion Full Cells,   Nano-Micro   Letters, 2021, 13, 118.

（6）Guangzhi Yang*, Zhenkun Zhang, Zhenwang Zhang, Li Zhang, Yuhua   Xue, Junhe Yang, Chengxin Peng*,   Rational Construction of Well-defined Hollow Double Shell SnO₂/   Mesoporous Carbon Spheres Heterostructure for Supercapacitors, Journal   of Alloys and Compounds, 2021, 873, 159810.

（7）Zhenwang Zhang, Zhenkun Zhang, Zhongjun Feng, Zhihong Chen, Yifan   Yang, Qiyu Zhou, Qiang Zhou, Chengxin   Peng, Guangzhi Yang*, Recent Progress on the Preparation of   Three-dimensional Vertically Aligned Graphene and Its Applications in   Supercapacitor, Chinese Science Bulletin, 2021, 66, 3617 – 3630.

（8）Weikang Gao, Zhide Wang, Chengxin   Peng, Shifei Kang* and Lifeng Cui*, Accelerating the redox kinetics by   catalytic activation of dead sulfur in lithium-sulfur battery, Journal   of Materials Chemistry A, 2021, 9, 13442–13458.

2020

（1）Yuwei Zhao, Donghong Wang, Xinliang Li, Qi Yang, Ying Guo, Funian   Mo, Qing Li, Chengxin Peng*,   Hongfei Li, and Chunyi Zhi*, Initiating a Reversible Aqueous Zn/Sulfur   Battery through a “Liquid Film”, Advanced   Materials, 2020, 32, 2003070.

（2）Yu Chen^#, Weimin Zhao^#,   Quanhai Zhang, Guangzhi Yang, Jianming Zheng, Wei Tang*, Qunjie Xu, Chunyan   Lai*, Junhe Yang, and Chengxin Peng*, Armoring LiNi_1/3Co_1/3Mn_1/3O₂   Cathode with Reliable Fluorinated Organic–Inorganic Hybrid Interphase   Layer toward Durable High Rate Battery, Advanced Functional Materials, 2020, 30, 2000396.

（3）Hongyu Jiang,   Jiawei Li, Yike Lei, Yu Chen, Chunyan Lai*, Liyi Shi*, Chengxin Peng*, Stabling LiNi_0.8Co_0.1Mn_0.1O₂   by PVP-assisted LiF-LaF₃ layer for lithium ion batteries with   improved electrochemical properties at high cut-off voltage,Journal   of the Taiwan Institute of Chemical Engineers, 2020, 114,   331–340.

（4）Bingjie Chen,   Lianhai Zu, Yao Liu, Ruijing Meng, Yutong Feng, Chengxin Peng, Feng Zhu, Tianzi Hao, Jiajia Ru, Yonggang Wang,   and Jinhu Yang*, Space‐Confined Atomic Clusters   Catalyze Superassembly of Silicon Nanodots within Carbon Frameworks for Use   in Lithium‐Ion Batteries, Angewandte   Chemie International Edition, 2020, 10, 1372.

（5）Ruijin Meng,   Qiyi Deng, Chengxin Peng, Bingjie   Chen, Kexuan Liao, Lunjin Li, Ziyi Yang, Donglei Yang, Lei Zheng, Chi Zhang,   Jinhu Yang*, Two-Dimensional Organic-Inorganic Heterostructures of In   Situ-Grown Layered COF on Ti₃C₂ MXene Nanosheets for   Lithium-Sulfur Batteries, Nano Toady, 2020, 35, 100991.

（6）Zedong Zhao^#, Wuji Chen^#, Sarawoot Impeng,   Mengxiong Li, Rong Wang, Yicheng Liu, Long Zhang, Lei Dong, Junjuda   Unruangsri, Chengxin Peng,   Changchun Wang, Supawadee Namuangruk*, Sang-Young Lee, Yonggang Wang, Hongbin   Lu* and Jia Guo*, Covalent Organic Framework-Based Ultrathin Crystalline   Porous Film: Manipulating Uniformity of Fluoride Distribution for Stabilizing   Lithium Metal Anode, Journal of Materials Chemistry A, 2020, 8, 3459–3467.

（7）Miao Li^#, Jingjuan Liu^#, Yusen Li, Guolong Xing,   Xiang Yu, Chengxin Peng & Long   Chen*, Skeleton Engineering of Isostructural 2D Covalent Organic Frameworks:   Orthoquinone Redox-Active Sites Enhanced Energy Storage, CCS Chemistry, 2020, 2,   696–706.

2019

（1）Chengxin   Peng^#, Huixin Chen^#,   Guiming Zhong*, Wei Tang, Yuxuan Xiang, Xiangsi Liu, Jinhu Yang*, Canzhong   Lu, Yong Yang*, Capacity Fading Induced by Phase Conversion Hysteresis within   Alloying Phosphorus Anode, Nano Energy, 2019, 58, 560–567.

（2）Xiao-Liang Ye, Yu-Qian Huang, Xing-Yan   Tang, Juan Xu, Chengxin Peng* and Yuan-Zhi Tan*, Two-dimensional   Extended p-conjugated Triphenylene-core Covalent Organic Polymer, Journal of Materials Chemistry A (cover   story), 2019, 7, 3066–3071.

（3）Ziyi Yang^#, Chengxin   Peng^# (共同一作), Ruijin Meng, Lianhai Zu,  Yutong Feng,  Bingjie Chen,  Yongli Mi,    Chi Zhang, Jinhu Yang*, Hybrid Anatase/Rutile Nanodots-Embedded   Covalent Organic Frameworks with Complementary Polysulfide Adsorption for   High-Performance Lithium–Sulfur Batteries, ACS Central Science, 2019, 5, 11, 1876–1883.

（4）Jinjin Ai, Xingyun Zhao, Yike Le,   Shuai Yang, Qunjie Xu, Chunyan Lai*, Chengxin   Peng*, Pomegranate-inspired SnS/ZnS@C heterostructural nanocubes   towards high-performance sodium ion battery, Applied Surface Science,   2019, 496, 143631.

（5）Nan Feng^#, Ruijin Meng^#, Lianhai Zu, Yutong Feng,   Chengxin Peng, Jimei Huang,   Guanglei Liu, Bingjie Chen, Jinhu Yang*, A polymer-direct-intercalation   strategy for MoS₂/carbon-derived heteroaerogels with ultrahigh   pseudocapacitance, Nature Communications,2019,   10, 372.

（6）Ruijin Meng^#, Jimei Huang^#, Yutong Feng, Lianhai Zu,   Chengxin Peng, Lirong Zheng, Lei   Zheng, Zhibin Chen, Guanglei Liu, Bingjie Chen, Yongli Mi, and Jinhu Yang*,   Black Phosphorus Quantum Dot/Ti₃C₂ MXene Nanosheet   Composites for Efficient Electrochemical Lithium/Sodium-Ion Storage, Advanced   Energy Materials, 2018, 8, 1801514.

（7）Tianzi Hao^#, Yangyang Liu^#, Guanglei Liu, Chengxin Peng, Bingjie Chen, Yutong   Feng, Jiajia Ru, Jinhu Yang*, Insight into faradaic mechanism of   polyaniline@NiSe₂ core-shell nanotubes in high- performance   supercapacitors, Energy Storage Materials, 2019, 23, 225–232.

Prior to Joining USST

（1）Chengxin   Peng^#, Guo-Hong Ning^#,   Jie Su^#, Guiming   Zhong, Wei Tang, Bingbing Tian, Chenliang Su, Dingyi Yu, Lianhai Zu, Jinhu   Yang, Man-Fai Ng, Yong-Sheng Hu, Yong Yang*, Michel Armand and Kian Ping   Loh*, Reversible Multielectron Redox Chemistry of π-Conjugated   N-heteroaromatic Molecule-based Organic Cathodes, Nature Energy, 2017, 2,   17074. (Nature子刊, ESI, Highly Cited Papers)

（2）Biao Kong^#,   Lianhai Zu^#, Chengxin Peng*, Yan Zhang, Wei   Zhang, Jing Tang, Cordelia Selomulya, Liudi Zhang, Hanxing Chen, Yang Wang,   Yang Liu, Haili He, Jing Wei, Xiaocheng Lin, Wei Luo, Jianping Yang, Zaiwang   Zhao, Yong Liu, Jinhu Yang* and Dongyuan Zhao*, Direct Superassemblies of   Freestanding Metal−Carbon Frameworks Featuring   Reversible Crystalline-Phase Transformation for Electrochemical Sodium   Storage, Journal of the American Chemical Society, 2016, 138 (50),   16533–16541.

（3）Chengxin   Peng^#, Bingdi Chen^#,   Yao Qin, Shihe Yang, Chunzhong Li, Yuanhui Zuo, Siyang Liu and Jinhu Yang*,   Facile Ultrasonic Synthesis of CoO Quantum dot/Graphene Nanosheet Composites   with High Lithium Storage Capacity, ACS Nano, 2012, 6, 1074–1081.   (ESI, Highly Cited Papers)

（4）Chengxin Peng^#, Huixin Chen^#, Qiongyu Li, Weiwei Cai,   Qin Yao, Qingsheng Wu, Jinhu Yang* and Yong Yang*, Synergistically Reinforced   Lithium Storage Performance of In-Situ Chemically Grown Silicon@Silicon Oxide   Core-Shell Nanowires on Three-Dimensional Conductive Graphitic Scaffolds, Journal   of Materials Chemistry A, 2014, 2, 13859–13867.

（5）Chengxin Peng^#, Zubiao Wen^#, Yao Qin, Lukas   Schmidt-Mende, Chongzhong Li, Shihe Yang, Donglu Shi and Jinhu Yang*, Three   Dimensional Graphitized Carbon Nanovesicles for High Performance Ionic Liquid-based   Supercapacitors, ChemSusChem, 2014, 7, 777 –784.

（6）Chengxin Peng, Li Yang*,   Zhengxi Zhang, Kazuhiro Tachibana, Yong Yang*, Shiyong Zhao, Investigation of   The Anodic Behavior of Al Current Collector in Room Temperature Ionic Liquid   Electrolytes, Electrochimica Acta, 2008, 53 (14): 4764–4772.

（7）Chengxin Peng, Li Yang*, Zhengxi Zhang, Kazuhiro Tachibana, Yong Yang*, Anodic   Behavior of Al Current Collector in 1-alkyl-3-methylimidazolium   Bis[(trifluoromethyl)sulfonyl] imides Ionic Liquid Electrolytes, Journal   of Power Sources, 2007, 173 (1): 510–517.

（8）Chengxin Peng, Li Yang*,   Shaohua Fang, Jixian Wang, Zhengxi Zhang, Kazuhiro Tachibana, Yong Yang*,   Shiyong Zhao, Electrochemical Behavior of Copper Current Collector in   Imidazolium-based Ionic Liquid Electrolytes, Journal of Applied   Electrochemistry, 2010, 40(3): 653–662.

（9）Peng Chengxin, Yang Li*,   Wang Baofeng, Zhang Zhengxi, Li Nan, Electrochemical  Behavior of Aluminum Foil in   1-alkyl-3-methylimidazolium Tetrafluoroborate Ionic Liquids Electrolytes, Chinese   Science Bulletin, 2006, 51 (23): 2824–2830.

（10）Biao Kong, Jing   Tang, Yueyu Zhang, Tao Jiang, Xingao Gong, Chengxin Peng, Jing Wei, Jianping Yang, Yongcheng Wang, Xianbiao   Wang, Gengfeng Zheng*, Cordelia Selomulya* and Dongyuan Zhao*, Incorporation   of Well-dispersed Sub-5-nm Graphitic Pencil Nanodots into Ordered Mesoporous   Frameworks, Nature Chemistry, 2016, 8, 171–178.

（11）Lianhai Zu, Qingmei Su, Feng Zhu, Bingjie Chen,   Huanhuan Lu, Chengxin Peng, Ting   He, Gaohui Du, Pengfei He, Kai Chen, Shihe Yang, Jinhu Yang*, and Huisheng   Peng*, Antipulverization   Electrode Based on Low-Carbon Triple-Shelled Superstructures for Lithium-Ion   Batteries, Advanced Materials, 2017, 29, 1701494.

（12）Wei Tang,   Yanpeng Liu , Chengxin Peng, Mary   Y. Hu, Xuchu Deng, Ming Lin*, Jian Zhi Hu*, Kian Ping Loh*, Probing Lithium   Germanide Phase Evolution and Structural Change in a Germanium-in-Carbon   Nanotube Energy Storage System, Journal of the American Chemical Society,   2015, 137, 2600–2607.

（13）Wei Tang,   Zhongxin Chen, Bingbing Tian, Hyun-Wook Lee*, Xiaoxu Zhao, Xiaofeng   Fan,Yanchen Fan, Kai Leng, Chengxin   Peng, Min-Ho Kim, Meng Li, Ming Lin, Jie Su, Jianyi Chen, Hu Young Jeong,   Xuesong Yin, Qianfan Zhang, Wu Zhou, Kian Ping Loh*, and Guangyuan Wesley   Zheng*, In Situ Observation and Electrochemical Study of Encapsulated Sulfur   Nanoparticles by MoS₂ Flakes, Journal of the American Chemical Societ,   2017, 139, 10133−10141.

（14）Wei Tang, Cheng Xin Peng, Chang Tai Nai, Jie   Su, Yan Peng Liu, M. V. Venkatashamy Reddy, Ming Lin*, and Kian Ping Loh*,   Ultrahigh Capacity Due to Multi-Electron Conversion Reaction in Reduced   Graphene Oxide-Wrapped MoO₂ Porous Nanobelts, Small, 2015, 11( 20):   2446–2453.

（15）Wei Tang^#, Bee-Min Goh^#, Mary Y. Hu, Chuan Wan,   Bingbing Tian, Xuchu Deng, Chengxin   Peng, Ming Lin*, Jian Zhi Hu*, Kian Ping Loh*, In Situ Raman and Nuclear   Magnetic Resonance Study of Trapped Lithium in the Solid Electrolyte   Interface of Reduced Graphene Oxide, Journal of Physical Chemistry C, 2016,   120 (5): 2600–2608.

（16）Wei Tang,   Xiaohe Song, Yonghua Du, Chengxin Peng,   Ming Lin, Shibo Xi, Bingbing Tian, Jiaxin Zheng, Yuping Wu, Feng Pan*, Kian   Ping Loh*, High-performance NaFePO₄ Formed by Aqueous Ion-exchange   and Its Mechanism for Advanced Sodium Ion Batteries, Journal of Materials Chemistry   A, 2016, 4 (13): 4882–4892.

（17）Bingbing Tian^#, Guo-Hong Ning^#, Wei Tang, Chengxin Peng, Dingyi Yu, Zhongxin   Chen, Yinglin Xiao, Chenliang Su*, Kian Ping Loh*, Polyquinoneimines for   Lithium Storage: More Than the Sum of Its Parts, Materials Horizons, 2016,   3 (5): 429–433.

（18）Bingbing Tian^#, Zijing Ding^#, Guo-Hong Ning, Wei Tang,   Chengxin Peng, Bo Liu, Jie Su,   Chenliang Su*, Kian Ping Loh*, Amino Group Enhanced Phenazine Derivatives as   Electrode Materials for Lithium Storage, Chemical Communications, 2017,53,   2914–2917.

（19）Yuzhu Jiao, Chengxin Peng, Fangfang Guo, Zhihao   Bao, Jinhu Yang*, Lukas Schmidt-Mende, Ricky Dunbar, Yao Qin*, Zifeng Deng,   Facile Synthesis and Photocatalysis of Size-Distributed TiO₂   Hollow Spheres Consisting of {116} Plane-Oriented Nanocrystallites, Journal   of Physical Chemistry C, 2011, 115, 6405–6409.

（20）Shaohua Fang, Li Yang*, Chao Wei, Chengxin Peng, Kazuhiro   Tachibana, Kouichi Kamijima, Low-viscosity and Low-melting Point Asymmetric   Trialkylsulfonium Based Ionic Liquids as Potential Electrolytes, Electrochemistry Communications, 2007,   9 (11): 2696–2702.

代表性专利：

（1）彭成信，石墨烯涂覆铝箔集流体及其制备方法，授权公开(公告)号: No.201610853287.1 (已转让)

（2）彭成信，纳米钛酸锂-石墨烯复合材料及其制备方法，授权公开(公告)号: No.201610853290.3 (已转让)

四、学术任职

上海有色金属学会会员。担任《Nature Communications》、《Chemical Science》、《Chemistry of Materials》、《Journal of Power Sources》、《Electrochimica   Acta》、《ACS Applied Materials & Interfaces》、《Carbon》、《Materials Chemistry and   Physics》、《Materials Today》、《Solid State Science》等学术期刊杂志审稿人。

五、授课情况

（1）《Materials   Selection in Mechanical Design》

（2）《Metal   Failures》

（3）《材料化学》

（4）《储能材料与器件》

六、获奖情况

毕业员工

2022届  陈志竑(亿纬锂能股份有限公司)

2023届  侯剑(厦门海辰储能科技股份有限公司)

王飞翔(苏州时代新安能源科技有限公司)

胡苏宝(清陶（昆山）能源发展有限公司)

李望昊(苏州盛科通信股份有限公司)