男,汉族,河南郾城人,中共党员,博士,教授,博导。现任材料与能源学院副院长、兰州大学隆基未来技术研究院执行院长。入现职前分别在日本埼玉大学(2006.10–2008.09)、新加坡南洋理工大学(2008.09–2012.03)及新加坡科技发展局微电子研究所(2008.12–2009.12)从事太阳电池相关研究工作。目前的主要研究方向包括新型太阳电池的器件物理、结构设计和原型器件开发,新型半导体材料/结构和相关器件等。迄今,在国际电子器件顶级会议IEEE International Electron Devices Meeting (IEDM)、国际重要科技期刊Small、Applied Physics Letters、Optics Letters、IEEE Electron Device Letters等发表科技论文160余篇。同时,应出版商Springer-Verlag等的邀请撰写书目章节2章。
主要学术兼职:中国科学院近代物理研究所和兰州化学物理研究所兼职博导、中国微米纳米技术学会青年工作委员会委员、甘肃省科学技术奖励评审委员会委员等。
1、系统研究了半导体亚波长结构与可见光的相互作用,提出了高性能光管理结构的一般性设计方法,为新型光电原型器件(太阳电池等)的实现提供理论指导,并开展了部分原型器件的研发工作。
2、提出了在光伏器件活性层中构筑电子、空穴“桥”的概念,实现载流子收集效率的提升从而提高器件性能。
3、开发了一系列潜在性价比高、基于晶硅的肖特基结太阳电池。
4、开发了一系列基于多元过渡金属硫化物的高综合性能水系超级电容器(能量密度大于110 Wh kg–1)。
5、开发出了一种微纳金刚石薄膜的简易制备及原位掺杂方法,相关材料可用于导热或冷场发射。
Some representative publications:
-Solar cells-
[1]One-Stone-for-Multiple-Birds Additive Strategy for HighlyEfficient and Stable Carbon-Based Hole-Transport-Layer-FreeCsPbI2Br Solar Cells, Small(2024)DOI: 10.1002/smll.202406784.
[2]Construction of back-heterojunction crystalline silicon solar cells usingFermi-level-adjusted MXene by CuCl2, Journal of Power Sources 614, 235046 (2024).
[3] Solution-Processed Silicon/SnCl2-Treated Ti3C2TxMXene Schottky Junction Solar Cells, Science China Materials 65, 896-903 (2022).
[4] MXenes for Solar Cells, Nano-Micro Letters13, 78 (2021).
[5] Bridging for Carriers by Embedding Metal Oxide Nanoparticles in the Photoactive Layer to Enhance Performance of Polymer Solar Cells, IEEE Journal of Photovoltaics 10, 1353 (2020).
[6] Wedge-shaped semiconductor nanowall arrays with excellent light management, Optics Letters42, 3928 (2017).
[7]Radial junction Si micro/nano-wire array photovoltaics: Recent progress from theoretical investigation to experimental realization, Nano Energy 7, 10 (2014).
[8]Low aspect-ratio hemispherical nanopit array surface texturing for enhancing light absorption in crystalline Si thin film-based solar cells,Appplied Physics Letters 98, 021905 (2011).
[9] Design guidelines of periodic Si nanowire arrays for solar cell application,Appplied Physics Letters 95, 243113 (2009).
[10] Si nanopillar array optimization on Si thin films for solar energy harvesting, Appplied Physics Letters 95, 033102 (2009).
-Energy storage devices-
[1]High-performance aqueous asymmetric supercapacitors with a cathodeof MnCo2O4 nanowires sandwiched by NiCoMnS4 nanosheets on Ni foam,Science China Materials 67, 816-823 (2024).
[2]Vanadium Oxide Cathode Coinserted by Ni2+ and NH4+ for High-Performance Aqueous Zinc-Ion Batteries, ACS Applied Materials & Interfaces 16, 8922-8929 (2024).
[3] A flexible cathode of nickel-manganese sulfide microparticles on carbon cloth for aqueous asymmetric supercapacitors with high comprehensive performance,Journal of Power Sources551, 232185 (2022).
[4]High-performance aqueous asymmetric supercapacitors based on the cathode of one-step electrodeposited cracked bark-shaped nickel manganese sulfides on activated carbon cloth, Science China-Technological Sciences 65, 293 (2022).
[5] Cracked bark-inspired ternary metallic sulfide (NiCoMnS4) nanostructure on carbon cloth for high-performance aqueous asymmetric supercapacitors,Science China Materials 64, 1632 (2021).
[6] Hybrid Aqueous/Nonaqueous Water-in-Bisalt Electrolyte Enables Safe Dual Ion Batteries, Small 16, 1905838 (2020).
[7] Punching holes on paper-like electrodes: An effective strategy to enhance rate performance of supercapacitors, Energy Storage Materials19, 338 (2019).
[8]High-performance free-standing capacitor electrodes of multilayered Co9S8plates wrapped by carbonized poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate)/r欧宝体育cedgraphene oxide,Journal of Power Sources379, 167-173 (2018).
[9] A Dual Carbon-Based Potassium Dual Ion Battery with Robust Comprehensive Performance, Small 14, 1801836 (2018).
[10]Effect of rGO Coating on Interconnected Co3O4 Nanosheetsand Improved Supercapacitive Behavior of Co3O4 /rGO/NFArchitecture, Nano-Micro Letters 9, 38 (2017).
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