[1] Yuan Shouyi; Weng Suting; Wang Fei; Dong Xiaoli; Wang Yonggang; Wang Zhaoxiang; Shen Cai*; Bao Junwei Lucas*; Wang Xuefeng*; Xia Yongyao*; Revisiting the Designing Criteria of Advanced Solid Electrolyte Interphase on Lithium Metal Anode under Practical Condition, Nano Energy, 2021: 105847.
[2] Yang Gaojing; Liu Zepeng; Weng Suting; Zhang Qinghua; Wang Xuefeng*; Wang Zhaoxiang*; Gu Lin; Chen Liquan; Iron Carbide Allured Lithium Metal Storage in Carbon Nanotube Cavities, Energy Storage Materials, 2021, 36: 459-465.
[3] Wang Xuefeng#; Pawar Gorakh#; Li Yejing; Ren Xiaodi; Zhang Minghao; Lu Bingyu; Banerjee Abhik; Liu Ping; Dufek Eric J.; Zhang Ji-Guang; Xiao Jie; Liu Jun; Meng Ying Shirley*; Liaw Boryann*; Glassy Li metal anode for high-performance rechargeable Li batteries, Nature Materials, 2020, 19(12): 1339-1345.
[4] Zhang Simeng; Yang Gaojing; Liu Shuai; Li Xiaoyun; Wang Xuefeng*; Wang Zhaoxiang*; Chen Liquan; Understanding the Dropping of Lithium Plating Potential in Carbonate Electrolyte, Nano Energy, 2020, 70: 104486.
[5] Yang Gaojing; Li Xiaoyun; Guan Zhaoruxin; Tong Yuxin; Xu Bin; Wang Xuefeng*; Wang Zhaoxiang*; Chen Liquan; Insights into Lithium and Sodium Storage in Porous Carbon, Nano Letters, 2020, 20(5): 3836-3843.
[6] Banerjee Abhik#*; Wang Xuefeng#*; Fang Chengcheng; Wu Erik A.; Meng Ying Shirley*; Interfaces and Interphases in All-Solid-State Batteries with Inorganic Solid Electrolytes, Chemical Reviews, 2020, 120(14): 6878-6933.
[7] Yang Lu; Liu Zepeng; Liu Shuai; Han Miao; Zhang Qinghua; Gu Lin; Li Qinghao; Hu Zhiwei; Wang Xuefeng*; Lin Hong-Ji; Chen Chien-Te; Chen Jin-Ming; Haw Shu-Chih; Wang Zhaoxiang*; Chen Liquan; Superiority of native vacancies in activating anionic redox in P2-type Na2/3[Mn7/9Mg1/9□1/9]O2, Nano Energy, 2020: 105172.
[8] Cheng Diyi; Wynn Thomas A.; Wang Xuefeng*; Wang Shen; Zhang Minghao; Shimizu Ryosuke; Bai Shuang; Nguyen Han; Fang Chengcheng; Kim Min-cheol; Li Weikang; Lu Bingyu; Kim Suk Jun; Meng Ying Shirley*; Unveiling the Stable Nature of the Solid Electrolyte Interphase between Lithium Metal and LiPON via Cryogenic Electron Microscopy, Joule, 2020, 4(11): 2484-2500.
[9] Han Miao; Liu Zepeng; Shen Xing; Yang Lu; Shen Xi; Zhang Qinghua; Liu Xiaozhi; Wang Junyang; Lin Hong-Ji; Chen Chien-Te; Pao Chih-Wen; Chen Jeng-Lung; Kong Qingyu; Yu Xiqian; Yu Richeng; Gu Lin; Hu Zhiwei; Wang Xuefeng*; Wang Zhaoxiang*; Chen Liquan; Stacking Faults Hinder Lithium Insertion in Li2RuO3, Advanced Energy Materials, 2020, 10(48): 2002631.
[10] Banerjee Abhik; Tang Hanmei; Wang Xuefeng*; Cheng Ju-Hsiang; Nguyen Han; Zhang Minghao; Tan Darren H. S.; Wynn Thomas A.; Wu Erik A.; Doux Jean-Marie; Wu Tianpin; Ma Lu; Sterbinsky George E.; D’Souza Macwin Savio; Ong Shyue Ping*; Meng Ying Shirley*; Revealing Nanoscale Solid–Solid Interfacial Phenomena for Long-Life and High-Energy All-Solid-State Batteries, ACS Applied Materials & Interfaces, 2019,11(46): 43138-43145.
[11] Wang Xuefeng; Li Yejing; Meng Ying Shirley; Cryogenic Electron Microscopy for Characterizing and Diagnosing Batteries, Joule, 2018, 2(11): 2225-2234.
[12] Wang Xuefeng; Li Yejing; Bi Xuanxuan; Ma Lu; Wu Tianpin; Sina Mahsa; Wang Shen; Zhang Minghao; Alvarado Judith; Lu Bingyu; Banerjee Abhik; Amine Khalil; Lu Jun; Meng Ying Shirley; Hybrid Li-Ion and Li-O2 Battery Enabled by Oxyhalogen-Sulfur Electrochemistry, Joule, 2018, 2(11): 2381-2392.
[13] Wang Xuefeng; Zhang Minghao; Alvarado Judith; Wang Shen; Sina Mahsa; Lu Bingyu; Bouwer James; Xu Wu; Xiao Jie; Zhang Ji-Guang; Liu Jun; Meng Ying Shirley; New Insights on the Structure of Electrochemically Deposited Lithium Metal and Its Solid Electrolyte Interphases via Cryogenic TEM, Nano Letters, 2017, 17(12): 7606-7612.
[14] Wang Xuefeng#; Gao Yurui#; Shen Xi; Li Yejing; Kong Qingyu; Lee Sungsik; Wang Zhaoxiang; Yu Richeng; Hu Yong-Sheng; Chen Liquan; Anti-P2 structured Na0.5NbO2 and its negative strain effect, Energy & Environmental Science, 2015, 8(9): 2753-2759.
[15] Wang Xuefeng#; Shen Xi#; Gao Yurui#; Wang Zhaoxiang; Yu Richeng; Chen Liquan; Atomic-Scale Recognition of Surface Structure and Intercalation Mechanism of Ti3C2X, Journal of the American Chemical Society, 2015, 137(7): 2715-2721.
[16] Wang Xuefeng; Gao Yurui; Wang Jiazhao; Wang Zhaoxiang; Chen Liquan; Chemical adsorption: another way to anchor polysulfides, Nano Energy, 2015, 12(0): 810-815.
[17] Wang Xuefeng; Li Yejing; Gao Yurui; Wang Zhaoxiang; Chen Liquan; Additive-free sodium titanate nanotube array as advanced electrode for sodium ion batteries, Nano Energy, 2015, 13: 687-692.
[18] Wang Xuefeng; Guan Zhaoruxin; Li Yejing; Wang Zhaoxiang; Chen Liquan; Guest-host interactions and their impacts on structure and performance of nano-MoS2, Nanoscale, 2015, 7(2): 637-641.
[19] Wang Xuefeng; Li Yejing; Guan Zhaoruxin; Wang Zhaoxiang; Chen Liquan; Micro-MoS2 with excellent reversible sodium-ion storage, Chemistry-A European Journal, 2015, 21(17): 6465-6468.
[20] Wang Xuefeng; Shen Xi; Wang Zhaoxiang; Yu Richeng; Chen Liquan; Atomic-Scale Clarification of Structural Transition of MoS2 upon Sodium Intercalation, ACS Nano, 2014, 8(11): 11394-11400.
[21] Wang Xuefeng; Wang Zhaoxiang; Chen Liquan; Reduced graphene oxide film as a shuttle-inhibiting interlayer in a lithium–sulfur battery, Journal of Power Sources, 2013, 242(0): 65-69.
[22] Wang Xuefeng; Fang Xiangpeng; Guo Xianwei; Wang Zhaoxiang; Chen Liquan; Sulfur in hierarchically pore-structured carbon pillars as cathode material for lithium–sulfur batteries, Electrochimica Acta, 2013, 97(0): 238-243.
[23] Li Yejing; Wang Xuefeng; Zhou Hongyao; Xing Xing; Banerjee Abhik; Holoubek John; Liu Haodong; Meng Ying Shirley; Liu Ping; Thin Solid Electrolyte Layers Enabled by Nanoscopic Polymer Binding, ACS Energy Letters, 2020, 5(3): 955-961.
[24] Li Yejing; Wang Xuefeng; Wang Zhaoxiang; Chen Liquan; Facile Synthesis of SnO2 Nanorods for Na-ion Batteries, ES Energy & Environment, 2019, 3: 55-59.
[25] Fang Chengcheng; Wang Xuefeng; Meng Ying Shirley; Key Issues Hindering a Practical Lithium-Metal Anode, Trends in Chemistry, 2019, 1(2): 152-158.
[26] Alvarado Judith#; Schroeder Marshall A. #; Pollard Travis P. #; Wang Xuefeng; Lee Jungwoo Z.; Zhang Minghao; Wynn Thomas; Ding Michael; Borodin Oleg; Meng Ying Shirley; Xu Kang; Bisalt ether electrolytes: a pathway towards lithium metal batteries with Ni-rich cathodes, Energy & Environmental Science, 2019, 12(2): 780-794.
[27] Li Yejing; Wang Xuefeng; Gao Yurui; Zhang Qinghua; Tan Guoqiang; Kong Qingyu; Bak Seongmin; Lu Gang; Yang Xiao-Qing; Gu Lin; Lu Jun; Amine Khalil; Wang Zhaoxiang; Chen Liquan; Native Vacancy Enhanced Oxygen Redox Reversibility and Structural Robustness, Advanced Energy Materials, 2018, 9(4): 1803087.
[28] Liu Haodong; Wang Xuefeng; Zhou Hongyao; Lim Hee-Dae; Xing Xing; Yan Qizhang; Meng Ying Shirley; Liu Ping; Structure and Solution Dynamics of Lithium Methyl Carbonate as a Protective Layer For Lithium Metal, ACS Applied Energy Materials, 2018, 1(5): 1864-1869.
[29] Gao Yurui; Wang Xuefeng; Ma Jun; Wang Zhaoxiang; Chen Liquan; Selecting Substituent Elements for Li-Rich Mn-Based Cathode Materials by Density Functional Theory (DFT) Calculations, Chemistry of Materials, 2015, 27(9): 3456-3461.
[30] Doux Jean-Marie; Yang Yangyuchen; Tan Darren H. S.; Nguyen Han; Wu Erik A.; Wang Xuefeng; Banerjee Abhik; Meng Ying Shirley; Pressure Effects on Sulfide Electrolytes for All Solid-State Batteries, Journal of Materials Chemistry A, 2020, 8(10): 5049-5055.
[31] Lee Jungwoo Z.; Wynn Thomas A.; Schroeder Marshall A.; Alvarado Judith; Wang Xuefeng; Xu Kang; Meng Ying Shirley; Cryogenic Focused Ion Beam Characterization of Lithium Metal Anodes, ACS Energy Letters, 2019, 4(2): 489-493.
[32] Parikh Pritesh; Sina Mahsa; Banerjee Abhik; Wang Xuefeng; D'Souza Macwin Savio; Doux Jean-Marie; Wu Erik A.; Trieu Osman Y.; Gong Yongbai; Zhou Qian; Snyder Kent; Meng Ying Shirley; Role of Polyacrylic acid (PAA) binder on the solid electrolyte interphase in silicon anodes, Chemistry of Materials, 2019, 31(7): 2535-2544.
[33] Li Matthew; Bai Zhengyu; Li Yejing; Ma Lu; Dai Alvin; Wang Xuefeng; Luo Dan; Wu Tianpin; Liu Ping; Yang Lin; Amine Khalil; Chen Zhongwei; Lu Jun; Electrochemically primed functional redox mediator generator from the decomposition of solid state electrolyte, Nature Communications, 2019, 10(1): 1890.
[34] Fang Chengcheng; Li Jinxing; Zhang Minghao; Zhang Yihui; Yang Fan; Lee Jungwoo Z.; Lee Min-Han; Alvarado Judith; Schroeder Marshall A.; Yang Yangyuchen; Lu Bingyu; Williams Nicholas; Ceja Miguel; Yang Li; Cai Mei; Gu Jing; Xu Kang; Wang Xuefeng; Meng Ying Shirley; Quantifying inactive lithium in lithium metal batteries, Nature, 2019, 572(7770): 511-515.
[35] Yang Yangyuchen; Davies Daniel M.; Yin Yijie; Borodin Oleg; Lee Jungwoo Z.; Fang Chengcheng; Olguin Marco; Zhang Yihui; Sablina Ekaterina S.; Wang Xuefeng; Rustomji Cyrus S.; Meng Y. Shirley; High-Efficiency Lithium-Metal Anode Enabled by Liquefied Gas Electrolytes, Joule, 2019, 3(8): 1986-2000.
[36] Zhou Hongyao; Liu Haodong; Li Yejing; Yue Xiujun; Wang Xuefeng; Gonzalez Matthew; Meng Ying Shirley; liu ping; In-situ formed polymer gel electrolytes for lithium batteries with inherent thermal shutdown safety features, Journal of Materials Chemistry A, 2019, 7(28): 16984-16991.
[37] Xing Xing; Li Yejing; Wang Xuefeng; Petrova Victoria; Liu Haodong; Liu Ping; Cathode electrolyte interface enabling stable Li–S batteries,Energy Storage Materials, 2019, 21: 474-480.
[38] Nguyen Han; Banerjee Abhik; Wang Xuefeng; Tan Darren; Wu Erik A.; Doux Jean-Marie; Stephens Ryan; Verbist Guy; Meng Ying Shirley; Single-step synthesis of highly conductive Na3PS4 solid electrolyte for sodium all solid-state batteries, Journal of Power Sources, 2019, 435: 126623.
[39] Wang Dongdong; Liu Haodong; Li Mingqian; Wang Xuefeng; Bai Shuang; Shi Yang; Tian Jianhua; Shan Zhongqiang; Meng Ying Shirley; Liu Ping; Chen Zheng; Nanosheet-assembled hierarchical Li4Ti5O12 microspheres for high-volumetric-density and high-rate Li-ion battery anode, Energy Storage Materials, 2019, 21: 361-371.
[40] Doux Jean‐Marie; Nguyen Han; Tan Darren H. S.; Banerjee Abhik; Wang Xuefeng; Wu Erik A.; Jo Chiho; Yang Hedi; Meng Ying Shirley; Stack Pressure Considerations for Room‐Temperature All‐Solid‐State Lithium Metal Batteries, Advanced Energy Materials, 2019, 10(1): 1903253-1903259.
[41] Tan Darren H. S.; Wu Erik A.; Nguyen Han; Chen Zheng; Marple Maxwell Adam Thomas; Doux Jean-Marie; Wang Xuefeng; Yang Hedi; Banerjee Abhik; Meng Ying Shirley; Elucidating Reversible Electrochemical Redox of Li6PS5Cl Solid Electrolyte, ACS Energy Letters, 2019, 4(10): 2418-2427.
[42] Tan Darren H. S.; Banerjee Abhik; Deng Zhi; Wu Erik A.; Nguyen Han; Doux Jean-Marie; Wang Xuefeng; Cheng Ju-hsiang; Ong Shyue Ping; Meng Ying Shirley; Chen Zheng; Enabling Thin and Flexible Solid-State Composite Electrolytes by the Scalable Solution Process, ACS Applied Energy Materials, 2019, 2(9): 6542-6550.
[43] Chung Hyeseung; Grenier Antonin; Huang Ricky; Wang Xuefeng; Lebens-Higgins Zachary; Doux Jean-Marie; Sallis Shawn; Song Chengyu; Ercius Peter; Chapman Karena; Piper Louis F. J.; Cho Hyung-Man; Zhang Minghao; Meng Ying Shirley; Comprehensive study of a versatile polyol synthesis approach for cathode materials for Li-ion batteries, Nano Research, 2019, 12(9): 2238-2249.
[44] Li Yejing; Gao Yurui; Wang Xuefeng; Shen Xi; Kong Qingyu; Yu Richeng; Lu Gang; Wang Zhaoxiang; Chen Liquan; Iron migration and oxygen oxidation during sodium extraction from NaFeO2, Nano Energy, 2018, 47: 519-526.
[45] Seo Joon Kyo; Shin JaeWook; Chung Hyeseung; Meng Po Yu; Wang Xuefeng; Meng Y. Shirley; Intercalation and Conversion Reactions of Nanosized β-MnO2 Cathode in the Secondary Zn/MnO2 Alkaline Battery, The Journal of Physical Chemistry C, 2018, 122(21): 11177-11185.
[46] Wang Shen; Huang Zihan; Wang Xuefeng; Li Yingmin; Günther Marcella; Valenzuela Sophia; Parikh Pritesh; Cabreros Amanda; Xiong Wei; Meng Ying Shirley; Unveiling the Role of tBP-LiTFSI Complexes in Perovskite Solar Cells, Journal of the American Chemical Society, 2018, 140(48): 16720-16730.
[47] Wynn Thomas Andrew; Fang Chengcheng; Zhang Minghao; Liu Haodong; Davies Daniel M.; Wang Xuefeng; Lau Derek; Lee Jungwoo Z.; Huang Bo-Yuan; Fung Kuan Zong; Ni Chung-Ta; Meng Ying Shirley; Mitigating Oxygen Release in Anionic-Redox-Active Cathode Materials by Cationic Substitution through Rational Design, Journal of Materials Chemistry A, 2018, 6(47): 24651-24659.
[48] Li Yejing; Jiao Junyu; Bi Jiepeng; Wang Xuefeng; Wang Zhaoxiang; Chen Liquan; Controlled deposition of Li metal, Nano Energy, 2016, 32: 241-246.
[49] Gao Yurui; Ma Jun; Wang Xuefeng; Lu Xia; Bai Ying; Wang Zhaoxiang; Chen Liquan; Improved electron/Li-ion transport and oxygen stability of Mo-doped Li2MnO3, Journal of Materials Chemistry A, 2014, 2(13): 4811-4818.
[50] Fang Xiangpeng; Hua Chunxiu; Wu Chengren; Wang Xuefeng; Shen Lanyao; Kong Qingyu; Wang Jiazhao; Hu Yongsheng; Wang Zhaoxiang; Chen Liquan; Synthesis and Electrochemical Performance of Graphene-like WS2, Chemistry – A European Journal, 2013,19(18): 5694-5700.