025、Huang H, Yan H, Duan M, et al. TiO2 Surface Oxygen Vacancy Passivation towards Mitigated Interfacial Lattice Distortion and Efficient Perovskite Solar Cell[J].    Applied Surface Science, 2021,544.||PDF

024、Longze Wang,Jinxin Liu,Rongfang Yuan,et al. Adaptive bidding strategy for real-time energy management in multi-energy market enhanced by blockchain-ScienceDirect[J].    Applied Energy, 2020,279.||PDF

023、Jun Ji, Xin Liu, Hao Huang,et al. Recent Progress on Perovskite Homojunction Solar Cells[J].     物理化学学报, 2021,37 (4),2008095.||PDF

022、Tong J , Zhang M , Zhang S , et al. Effects of the ambient medium and structure parameter on the optical properties of tapered silicon nanowire[J].     Optics Communications, 2019, 454:124515.||PDF

021、Longze Wang,Jing Wu,Rongfang Yuan,et,al Dynamic Adaptive Cross-Chain Trading Mode for Multi-Microgrid Joint Operation[J].     Sensors, 2020, 20(21).||PDF

020、仝杰, 雷煜卿, 李英峰,等. 入射角度和偏振对锥形硅纳米线光谱行为的影响[J].     光谱学与光谱分析, 2020(11).||PDF

019、Lehao Liu, Jing Lyu, Jinshan Mo, et al. Comprehensively-upgraded polymer electrolytes by multifunctional aramid nanofibers for stable all-solid-state Li-ion batteries[J].     Nano Energy, 69(2020)104398.||PDF

018、Chen Z , Zhang D , Jiang H , et al. Environmental benefits evaluation of coal-to-electricity project in Beijing, China[J].     Environmental Science and Pollution Research, 2020(5):40244–40252.||PDF

017、Huang H , Liu X , Duan M , et al. Dual Function of Surface Alkali-Gas Erosion on SnO2 for Efficient and Stable Perovskite Solar Cells[J].     ACS Applied Energy Materials , 2020, 3(5):5039-5049.||PDF

016、Ji J , Liu X , Jiang H , et al. Two-Stage Ultraviolet Degradation of Perovskite Solar Cells Induced by the Oxygen Vacancy-Ti4+ States[J].     iScience , 2020, 23(4).||PDF

015、Peng P , Chen J , Niu K , et al. MoO3 /CNTs Loading in Separator for Performance-Improving Current-Collector-Free Lithium Ion Batteries[J].   Journal of Nanoelectronics and Optoelectronics , 2020, 15(2):204-211.||PDF

014、Hejin Yan，Yingfeng Li，Xiang Li，et al.Hot carrier relaxation in Cs2TiIyBr6-y (y=0, 2 and 6)by a time-domain ab initio study[J].  RSC Advances , 2020(10):958-964.||PDF

013、李 偲,郗文康,张德隆,et al.柔性直流系统中变速抽蓄机组与风电的协调控制策略研究[J].天津理工大学学报,2020(4).  天津理工大学学报 , 2020(4).||PDF

012、陈泽西，孙玉树 ，张妍, et al. 考虑风电波动率的储能系统优化配置策略[J].  湖南大学学报:自然科学版, , 2020(8):60-68.||PDF

011、牛凯, 李静如, 李旭晨, et al.电化学测试技术在锂离子电池中的应用研究[J].  中国测试, 2020(7)||PDF                                    

010、Gao Z , Lin G ,Zheng Y,et al.Excellent light-capture capability of trilobal SiNW for ultra-high JSC in single-nanowire solar cells[J].  2020.Vol. 8, No. 6   Photonics Research, 2020. Vol. 8, No. 6.||PDF                    

009、Gao Z , Lin G , Chen Y , et al. Moth-eye nanostructure PDMS films for reducing reflection and retaining flexibility in ultra-thin c-Si solar cells[J].  Solar Energy,  2020,  205:275-281.||PDF                  

008、刘乐浩, 莫金珊, 李美成, et al. 纳米颗粒的自组装及其在锂离子电池中的应用[J].  材料工程,  2020  ,048(004):15-24||PDF                    

007、梅文明, 李美成, 孙炜,等. 一种面向分布式新能源网络的终端安全接入技术[J].  电网技术 , 2020, 44(3).||PDF                    

003、Chen, J., Luo, B., Chen, Q,et al.Localized Electrons Enhanced Ion Transport for Ultrafast Electrochemical Energy Storage[J]. Advanced Materials,  2020, 32(14).||PDF                                      

002、Liu L,Li M,Chu L,et al. Layered ternary metal oxides: Performance degradation mechanisms as cathodes, and design strategies for high-performance batteries[J]. Progress in Materials Science,   2020, 111:100655. ||PDF                                          

001、Liu, Lehao,Lyu, Jing,Mo, Jinshan,et al.Flexible, high-voltage, ion-conducting composite membranes with 3D aramid nanofiber frameworks for stable all-solid-state lithium metal batteries[J].SCIENCE CHINA Materials,  2020,  63(5):703-718.||PDF