姓名:栗军帅

						栗军帅:男,教授(三级)、博导(微电子与器件物理、凝聚态物理)。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)从事与半导体纳米、亚微米结构的光电学行为及其在新型光电器件中的应用等相关研究工作。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、Nanoscale、Nanotechnology、Nano Energy、Organic Electronics、Journal of Power Sources等发表科技论文70余篇。同时,应出版商Springer-Verlag等的邀请撰写书目章节2章、综述性论文1篇。其中,引用次数较高的论文有Applied Physics Letters 95, 033102(2009)(211次,参考Web of Science)、Applied Physics Letters 95, 243113(2009)(128次)等。主持与新能源器件研究相关的国家自然科学基金项目2项、教育部科技项目1项。
					

						1. 新型太阳电池的器件物理、结构设计、原型器件开发;

2. 新型半导体材料/结构的开发和应用;

3. 非平衡等离子体及其在半导体材料/结构生长中的应用。
					
						教学:普通物理学(2/2)(2013-)、半导体物理学(2016)、量子物理(2017-)。

研究组毕业研究生及去向:

2017届:夏方圆 (学硕、长江存储),袁点(专硕、西安),王艳周(李亚丽老师专硕、公务员/新疆维吾尔自治区机械电子行业管理办公室);

2018届:姚廷辉(2017年国奖、2018年甘肃省优秀硕士学位论文/学硕、上海华虹宏利半导体),邵鹏飞(学硕、成都京东方光电科技),郭慧(学硕、南京大学读博),秦胜春(李亚丽老师学硕、武汉华星光电),陈鑫宇(李亚丽老师学硕、上海华虹宏利半导体),丁永强(李亚丽老师专硕、陕西千山航空电子)



博士研究生招收专业:微电子与器件物理、凝聚态物理

学术型硕士研究生招收专业:微电子学与固体电子学、凝聚态物理

工程硕士研究生招收专业:材料工程
					
						近五年发表的论文及之前的代表性论著(详细论文信息:https://www.researchgate.net/profile/Junshuai_Li):

Direct patterned growth of intrinsic/doped vertical graphene nanosheets on stainless steel via heating solid precursor films for field emission application, Materials and Design 162, 293 (2019).

Punching holes on paper-like electrodes: An effective strategy to enhance rate performance of supercapacitors, Energy Storage Materials (Accepted 2018).

A Dual Carbon-Based Potassium Dual Ion Battery with Robust Comprehensive Performance, Small 14, 1801836 (2018).

Excellent Light Confinement of Hemiellipsoid- and Inverted Hemiellipsoid-Modified Semiconductor Nanowire Arrays, Nanoscale Research Letters 13, 236 (2018).

Self-support Surface Enhanced Raman Scattering Substrates with the Function of Enriching Analytes, Advanced Materials Interfaces 5, 1800559 (2018).

Rapid activation and enhanced cycling stability of Co3O4 microspheres decorated by N-doped amorphous carbon shell for advanced LIBs,Electrochimica Acta 283, 979 (2018).

High-performance free-standing capacitor electrodes of multilayered Co9S8 plates wrapped by carbonized poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate)/reduced graphene oxide, Journal of Power Sources 379, 167 (2018).

MoS2/Ni3S4 Composite Nanosheets on Interconnected Carbon Shells as an Excellent Supercapacitor Electrode Architecture for Long Term Cycling at High Current Densities, Applied Surface Science 440, 741 (2018).

Nanotube-like hard carbon as high-performance anode material for sodium ion hybrid capacitors,Science China-Materials 61, 285 (2018).      

Optimization of DMSO-based precursor solution by H2O additive for performance enhancement of kesterite photovoltaic devices, Solar Energy Materials and Solar Cells 179, 427 (2018).

The formation pathways of aqueous hydrogen peroxide in a plasma-liquid system with liquid as the cathode, Plasma Sources Science & Technology 27, 085010 (2018).

On the quantification of the dissolved hydroxyl radicals in the plasma-liquid system using the molecular probe method, Journal of Physics D-Applied Physics 51, 155205 (2018).

Wedge-shaped semiconductor nanowall arrays with excellent light management, Optics Letters 42, 3928 (2017).

Facile embedding of SiO2 nanoparticles in organic solar cells for performance improvement, Organic Electronics 50, 77 (2017).

Nanostructural optimization of silicon/PEDOT:PSS solar cells for performance improvement, Journal of Physics D-Applied Physics 50,175105 (2017).

Enhancing open-circuit voltage of solution-processed Cu2ZnSn(S,Se)4solar cells with Ag substitution, IEEE Journal of Photovoltaics 7, 874 (2017).

Effect of rGO coating on interconnected Co3O4 nanosheets and improved supercapacitive behavior of Co3O4/rGO/NF architecture, Nano-Micro Letters 9, 38 (2017).

Remarkable room-temperature magnetoresistance in silicon strip devices, Physica Status Solidi-Rapid Research Letters 11, 1600253 (2017).

Simultaneous quantification of aqueous peroxide, nitrate, and nitrite during the plasma-liquid interactions by derivative absorption spectrophotometry, Journal of Physics D-Applied Physics 50, 445207 (2017). (Selected as “Highlights in 2017”)

Nanostructured semiconductor solar absorbers with near 100% absorption and related light management picture,Journal of Physics D-Applied Physics 49,215104 (2016). (Selected as “Highlights in 2016”)

Vertical graphenenanosheets synthesized by thermal chemical vapor deposition and the field emission properties, Journal of Physics D-Applied Physics 49, 385301 (2016).

High-Performance Black Multicrystalline Silicon Solar Cells by a Highly Simplified Metal-Catalyzed Chemical Etching Method, IEEE Journal of Photovoltaics6, 888 (2016).

Direct synthesis of hydrogen peroxide from plasma-water interactions, Scientific Reports 6, 38454 (2016).

Plasma electrochemical synthesis of cuprous oxide nanoparticles and their visible-light photocatalytic effect, Electrochimica Acta 222, 1677 (2016).

Facile synthesis of cuprous oxide nanoparticles by plasma electrochemistry, Journal of Physics D-Applied Physics 49, 275201 (2016).

A review of plasma-liquid interactions for nanomaterial synthesis, Journal of Physics D-Applied Physics 48, 424005 (2015).

Radial junction Si micro/nano-wire array photovoltaics: Recent progress from theoretical investigation to experimental realization, Nano Energy 7, 10-24 (2014).

Efficient light trapping in low aspect-ratio honeycomb nanobowl surface texturing for crystalline silicon solar cell applications, Applied Physics Letters 103, 253105 (2013).

Design and mechanism of cost-effective and highly efficient ultrathin (< 0.5 μm) gaas solar cells employing nano/micro-hemisphere surface texturing, AIP Advances3, 032145 (2013).

Observation of positive self-bias in radio frequency atmospheric pressure microplasmas, IEEE Transactions on Plasma Science 41, 826 (2013).

Solar energy harnessing in hexagonally arranged Si nanowire arrays and effects of array symmetry on optical characteristics, Nanotechnology 23, 194010 (2012).

Aligned Si nanowire-based solar cells, Nanoscale 3, 4888 (2011).

Novel low aspect-ratio Si nano-hemisphere array surface texturing for solar cell applications, Small 7, 3138 (2011).

Low aspect-ratio hemispherical nanopit array surface texturing for enhancing light absorption in crystalline Si thin film-based solar cells, Applied Physics Letters 98, 021905 (2011).

Boosting Short-Circuit Current With Rationally Designed Periodic Si Nanopillar Surface Texturing for Solar Cells, IEEE Transactions on Electron Devices 58, 3224 (2011).

Si nanopillar array surface texture for thin film solar cell with radial p-njunction, IEEE Electron Device Letters 32, 176 (2011).

Design high efficiency Si nanopillar array textured thin film solar cell, IEEE Electron Device Letters 31, 335 (2010).

Optical absorption enhancement in nanopore textured silicon thin film for photovoltaic application,Optics Letters 35, 40 (2010).

Design guidelines of periodic Si nanowire arrays for solar cell application, Applied Physics Letters 95, 243113 (2009).

Si nanopillar array optimization on Si thin films for solar energy harvesting, Applied Physics Letters 95, 033102 (2009). [Also selected for publication on Virtual Journal of Nanoscale Science & Technology, August 3, 2009.]

Deposition of controllable preferred orientation silicon films on glass by inductively coupled plasma chemical vapor deposition, Journal of Applied Physics 103, 043505 (2008).

Low aspect-ratio nano-hemisphere array surface texturing for high efficient crystalline Si film solar cells with ultrathin thickness, 1stInternational Conference on Silicon Photovoltaics, Freiburg, Germany, April 2011. (Full paper published in Energy Procedia 8, 180-184 (2011)).

High-efficiency crystalline Si thin film solar cells with Si nanopillar array textured surfaces, 35th IEEE Photovoltaic Specialists Conference, pp. 1469-1473, Hawaii, U.S.A, Jun. 2010.

A Novel Low Aspect-Ratio Si Nano-Hemisphere Surface Texturing Scheme for Ultrathin Film Solar Cells”, IEEE International Electron Devices Meeting (IEDM)-2011, pp. 35-38/ Art. No. 2.6, WashingtonDC, U.S.A.Dec. 2011.

Boosting Short Circuit Current with Rationally Designed Periodic Si Nanopillar Surface Texturing for Thin Film Solar Cell, IEEE International Electron Devices Meeting (IEDM)-2010, pp. 704-707/ Art. No. 31.2, San Francisco, U.S.A. Dec. 2010.

Surface nanostructure optimization for solar energy harvesting in Si thin film based solar cells, IEEE International Electron Devices Meeting (IEDM)-2009, pp. 547-550/ Art. No. 22.6., Baltimore, U.S.A. Dec. 2009.

Advanced Radial pn Junction Solar Cells Constructed on Silicon Nanowire Arrays, pp. 359-392, Chapter 14 in Volume 8 of Nanotechnology series: Electronics and Photovoltaics (Studium Press LLC, USA, 2013), ISBN:1-62699-008-5.

Enhancement of Si-based solar cell efficiency via nanostructure integration, pp. 3-55, Book Chapter 1 in the book entitled “Energy Efficiency and Renewable Energy through Nanotechnology” (Springer-Verlag, 2011), ISBN: 978-0-85729-637-5.