简历 Curriculum Vitae
叶宏 教授
工学博士 博士生导师
联系方式 | Contact Information |
单位:中国科学技术大学热科学和能源工程系
电话:0551-63607281
E-mail:hye@ustc.edu.cn
https://www.researchgate.net/profile/Hong_Ye6
Education Background |
1992.09-1997.06 中国科学技术大学 工程热物理 学士
1997.09-2002.06 中国科学技术大学 工程热物理 硕士、博士研究生
Academic and Working Experience |
2001.01-2004.01 中国科学技术大学 热科学和能源工程系 教师 讲师
2004.01-2016.06 中国科学技术大学 热科学和能源工程系 教师 副教授
2016.06-至 今 中国科学技术大学 热科学和能源工程系 教师 教授
2011.06-2012.06 美国佐治亚理工 访问学者
研究方向 | Research Interests |
研究核心:材料热物理,即研究材料宏观属性和过程与其内在结构及物理机理之间的关系。
1. 全频谱隐身,涵盖可见、红外和雷达波段;
2. 红外测温,涉及半导体工业、3D打印和红外探测;
3.先进功能材料,涉及建筑节能、半导体和航空航天工业。
标志性学术研究成果 | Outstanding Academic Achievement |
在智能窗领域,发展了近红外光调控的有效途径,提出了“完美窗户”的概念,并探索了其在建筑节能中的应用。热致变色材料是热科学和材料科学紧密联系的前沿和热点领域,关键科学问题为热致变色的调控机理。在科技部重大基础研究计划支持下,研究发现:要实现智能节能,材料设计的核心问题是近红外调控机制必须由吸收转变为反射;对于智能窗而言,红外发射与近红外调控具有相当地位,据此提出智能窗的发展路径。有两篇论文入选重大基础研究计划项目10篇代表作。完美窗户模型获国际学术界广泛认可,论文获多次长篇图文引述。因在该领域的影响力,受瑞典乌普萨拉大学著名学者Granqvist邀请,为Elsevier “The Smart Eco-efficient Built Environment”一书撰写“Nano-based chromogenic technologies for building energy efficiency”一章。Web of Science 检索结果表明课题组在氧化钒智能窗领域能源方向排名第三。
在仿生隐身领域,实现了绿色植物太阳光谱反射以及红外发射特性的仿生模拟。红外和高光谱隐身是多年来未克服难题,是热物理与隐身技术交叉热点领域。关键问题为现有隐身装备红外特征与植被差异显著,且无法实现植被光谱反射特征。研究发现气孔蒸腾对植物红外特征形成的贡献达30%以上,据此基于“过程仿生”理念实现了植物红外特征的逼真模拟,且通过材料组成和结构设计实现了全太阳光谱(250-2500nm)精细匹配。相关专家组认为该方法是实现高光谱对抗的可行途径。成果即将应用到某型号项目上。Web of Science 检索结果表明课题组在仿生树叶工程方向上排名并列第三。
在热光伏领域,发展了可控构筑PN结的新途径,建立了热光伏能量转化的有效途径。热光伏技术直接将热辐射转化为电能输出,在无线输电方面具重要应用前景,关键科学问题为Zn在III-V族半导体中的扩散机制。在863资助下,研究发现GaSb中两种典型Zn扩散浓度分布曲线的直接联系,且发现该现象普遍存在于该类半导体中,并据此发明了高效红外电池制备新工艺。华盛顿大学教授、著名热光伏专家Lewis Fraas认为该工作是一个“breakthrough”。研制的GaSb热光伏电池在陆军军械学院获得了应用。Web of Science 检索结果表明课题组在GaSb热光伏领域排名第二。
科研论文与专利 | Publications |
以第一/通讯作者身份发表期刊论文共80余篇:SCI论文50篇,其中一区TOP期刊12篇,二区TOP期刊10篇,二区以上33篇,SCI论文单篇他引最高次300余次;EI 30篇。获4项国家发明专利。
[1] H. Ye, Z. Wang, L. Wang, Effects of PCM on power consumption and temperature control performance of a thermal control system subject to periodic ambient conditions, Applied Energy, 190 (2017) 213-221.
[2] L. Long, H. Ye, Dual-intelligent windows regulating both solar and long-wave radiations dynamically, Solar Energy Materials and Solar Cells, 169 (2017) 145-150.
[3] L. Long, Y. Yang, H. Ye, L. Wang, Optical Absorption Enhancement in Monolayer MoS 2 Using Multi-order Magnetic Polaritons, Journal of Quantitative Spectroscopy and Radiative Transfer, (2017).
[4] Y. Gao, H. Ye, L. Wang, M. Liu, Experimental investigation of the effects of crosslinking processes on the swelling and hygroscopic performances of a poly (vinyl alcohol) membrane, Journal of Applied Polymer Science, 134(7) (2017).
[5] H. Ye, Q. Ni, Effects of the composition of diffusion source on the surface concentration and effective surface diffusivity of Zn in n-GaSb, Journal of Materials Science, 51(15) (2016) 7300-7308.
[6] H. Ye, S. Li, The imitation of the road surface temperature variation characteristics subjected to periodical ambient conditions, Applied Thermal Engineering, 92 (2016) 194-201.
[7] Q. Ni, H. Ye, Y. Shu, Q. Lin, A theoretical discussion on the internal quantum efficiencies of the epitaxial single crystal GaSb thin film cells with different p–n junctions, Solar Energy Materials and Solar Cells, 149 (2016) 88-96.
[8] L. Long, H. Ye, M. Liu, A new insight into opaque envelopes in a passive solar house: Properties and roles, Applied Energy, 183 (2016) 685-699.
[9] L. Long, H. Ye, The roles of thermal insulation and heat storage in the energy performance of the wall materials: a simulation study, Scientific reports, 6 (2016).
[10] S.-m. Li, H. Ye, Q.-z. Lin, Theoretical analysis of the surface temperature regulation of an infrared false target subjected to periodical ambient conditions, Defence Technology, 12(5) (2016) 360-366.
[11] Q. Cai, H. Ye, Q. Lin, Analysis of the optical and thermal properties of transparent insulating materials containing gas bubbles, Applied Thermal Engineering, 100 (2016) 468-477.
[12] H. Ye, H. Wang, Q. Cai, Two-dimensional VO 2 photonic crystal selective emitter, Journal of Quantitative Spectroscopy and Radiative Transfer, 158 (2015) 119-126.
[13] H. Ye, L. Tang, Q. Ni, Identification of the dissociative and kick-out diffusion mechanisms of Zn diffusion in GaAs by photoluminescence analysis, Materials Science and Engineering: B, 197 (2015) 1-4.
[14] H. Ye, Q. Ni, M. Ma, A Lattice Monte Carlo analysis of the effective thermal conductivity of closed-cell aluminum foams and an experimental verification, International Journal of Heat and Mass Transfer, 86 (2015) 853-860.
[15] H. Ye, M. Ma, Q. Ni, An experimental study on mid-high temperature effective thermal conductivity of the closed-cell aluminum foam, Applied Thermal Engineering, 77 (2015) 127-133.
[16] H. Ye, Y. Gao, S. Li, L. Guo, Bionic Leaves Imitating the Transpiration and Solar Spectrum Reflection Characteristics of Natural Leaves, Journal of Bionic Engineering, 12(1) (2015) 109-116.
[17] J. Yang, Z. Xu, H. Ye, X. Xu, X. Wu, J. Wang, Performance analyses of building energy on phase transition processes of VO 2 windows with an improved model, Applied Energy, 159 (2015) 502-508.
[18] L. Long, H. Ye, H. Zhang, Y. Gao, Performance demonstration and simulation of thermochromic double glazing in building applications, Solar Energy, 120 (2015) 55-64.
[19] L. Long, H. Ye, Effects of thermophysical properties of wall materials on energy performance in an active building, Energy Procedia, 75 (2015) 1850-1855.
[20] Z. Yuan, H. Ye, S. Li, Bionic leaf simulating the thermal effect of natural leaf transpiration, Journal of Bionic Engineering, 11(1) (2014) 90-97.
[21] H. Ye, Z. Yuan, S. Li, L. Zhang, Activated carbon fiber cloth and CaCl 2 composite sorbents for a water vapor sorption cooling system, Applied Thermal Engineering, 62(2) (2014) 690-696.
[22] H. Ye, Y. Shu, L. Tang, The simulation and optimization of the internal quantum efficiency of GaSb thermophotovoltaic cells with a box-shaped Zn diffusion profile, Solar Energy Materials and Solar Cells, 125 (2014) 268-275.
[23] H. Ye, M. Ma, J. Yu, Anomalies in mid-high-temperature linear thermal expansion coefficient of the closed-cell aluminum foam, Chinese science bulletin, 59(28) (2014) 3669-3675.
[24] H. Ye, L. Long, H. Zhang, R. Zou, The performance evaluation of shape-stabilized phase change materials in building applications using energy saving index, Applied Energy, 113 (2014) 1118-1126.
[25] H. Ye, L. Long, H. Zhang, Y. Gao, The energy saving index and the performance evaluation of thermochromic windows in passive buildings, Renewable Energy, 66 (2014) 215-221.
[26] H. Ye, L. Long, Smart or not? A theoretical discussion on the smart regulation capacity of vanadium dioxide glazing, Solar Energy Materials and Solar Cells, 120 (2014) 669-674.
[27] X. Xu, H. Ye, Y. Xu, M. Shen, X. Zhang, X. Wu, Experimental and theoretical analysis of cell module output performance for a thermophotovoltaic system, Applied Energy, 113 (2014) 924-931.
[28] H. Wang, H. Ye, Y. Zhang, Preparation and performance evaluation of Er2O3 coating-type selective emitter, Science China Technological Sciences, 57(2) (2014) 332-338.
[29] L. Tang, H. Ye, J. Xu, A novel zinc diffusion process for the fabrication of high-performance GaSb thermophotovoltaic cells, Solar Energy Materials and Solar Cells, 122 (2014) 94-98.
[30] Y. Shu, H. Ye, J. Chen, FDTD analysis of the optical properties of vertical ZnO nanorod array, Science China Technological Sciences, 57(6) (2014) 1147-1153.
[31] M.Y. Ma, H. Ye, An image analysis method to obtain the effective thermal conductivity of metallic foams via a redefined concept of shape factor, Applied Thermal Engineering, 73(1) (2014) 1279-1284.
[32] L. Long, H. Ye, Y. Gao, R. Zou, Performance demonstration and evaluation of the synergetic application of vanadium dioxide glazing and phase change material in passive buildings, Applied Energy, 136 (2014) 89-97.
[33] L. Long, H. Ye, Performance Demonstration and Evaluation of the Synergetic Application of Thermochromic Window and Phase Change Material in Passive Buildings, Energy Procedia, 61 (2014) 941-944.
[34] L. Long, H. Ye, How to be smart and energy efficient: A general discussion on thermochromic windows, Scientific reports, 4 (2014).
[35] L. Long, H. Ye, Discussion of the performance improvement of thermochromic smart glazing applied in passive buildings, Solar Energy, 107 (2014) 236-244.
[36] Z.M. Zhang, H. Ye, Measurements of radiative properties of engineered micro-/nanostructures, Annual Review of Heat Transfer, 16(1) (2013).
[37] H. Ye, Z. Yuan, S. Zhang, The heat and mass transfer analysis of a leaf, Journal of Bionic Engineering, 10(2) (2013) 170-176.
[38] H. Ye, X. Meng, L. Long, B. Xu, The route to a perfect window, Renewable energy, 55 (2013) 448-455.
[39] H. Ye, L. Long, H. Zhang, B. Xu, Y. Gao, L. Kang, Z. Chen, The demonstration and simulation of the application performance of the vanadium dioxide single glazing, Solar Energy Materials and Solar Cells, 117 (2013) 168-173.
[40] H. Ye, X. Wang, W. Lin, C. Wong, Z. Zhang, Infrared absorption coefficients of vertically aligned carbon nanotube films, Applied Physics Letters, 101(14) (2012) 141909.
[41] H. Ye, L. Tang, K. Li, The intrinsic relationship between the kink-and-tail and box-shaped zinc diffusion profiles in n-GaSb, Semiconductor Science and Technology, 28(1) (2012) 015001.
[42] H. Ye, X. Meng, B. Xu, Theoretical discussions of perfect window, ideal near infrared solar spectrum regulating window and current thermochromic window, Energy and Buildings, 49 (2012) 164-172.
[43] H. Ye, Y.-L. Ma, Combined radiation-evaporation model of a liquid droplet layer in space, Journal of Heat Transfer, 133(11) (2011) 111502.
[44] X. Wu, H. Ye, J. Wang, Experimental analysis of cell output performance for a TPV system, Solar Energy Materials and Solar Cells, 95(8) (2011) 2459-2465.
[45] J. Chen, H. Ye, L. Aé, Y. Tang, D. Kieven, T. Rissom, J. Neuendorf, M.C. Lux-Steiner, Tapered aluminum-doped vertical zinc oxide nanorod arrays as light coupling layer for solar energy applications, Solar Energy Materials and Solar Cells, 95(6) (2011) 1437-1440.
[46] H. Ye, L. Tang, Y. Ma, Experimental and theoretical investigation of zinc diffusion in N-GaSb, Chinese Science Bulletin, 55(23) (2010) 2489-2496.
[47] H. Ye, X. Geng, The feasibility analysis of the application of TPV system in reentry, Science China Technological Sciences, 53(12) (2010) 3310-3315.
[48] L. Mao, H. Ye, New development of one-dimensional Si/SiO 2 photonic crystals filter for thermophotovoltaic applications, Renewable Energy, 35(1) (2010) 249-256.
[49] J. Li, H. Ye, Optimization of the inhibition of atmospheric window emission using photonic crystals, Science China Technological Sciences, 53(5) (2010) 1315-1319.
[50] L. Mao, Y. Hong, Thermal modeling for thermophotovoltaic systems adopting the radiation network method, Solar Energy Materials and Solar Cells, 93(10) (2009) 1705-1713.
[51] H. Zhang, G. Zhao, H. Ye, X. Ge, S. Cheng, An improved hot probe for measuring thermal conductivity of liquids, Measurement Science and Technology, 16(7) (2005) 1430.
[52] H. Zhang, X. Ge, H. Ye, Effectiveness of the heat conduction reinforcement of particle filled composites, Modelling and Simulation in Materials Science and Engineering, 13(3) (2005) 401.
[53] H. Zhang, X. Ge, H. Ye, Randomly mixed model for predicting the effective thermal conductivity of moist porous media, Journal of Physics D: Applied Physics, 39(1) (2005) 220.
[54] Y. Hong, G. Xin-shi, Preparation of polyethylene–paraffin compound as a form-stable solid-liquid phase change material, Solar Energy Materials and Solar Cells, 64(1) (2000) 37-44.
书籍章节 Book Chapters
1. Z. M. Zhang, H. Ye. "Measurements of radiative properties of engineered micro-/nanostructures." Annual Review of Heat Transfer (2013).16(1).
2.L. S. Long, H. Ye. "10–Nano-based chromogenic technologies for building energy efficiency." Start-Up Creation (2016):213-236.
Public and Academic Services |
1.国际期刊Scientific Reports编委会成员;
2.核心期刊“太阳能学报”编委会成员;
3.核心期刊“计算物理”编委会成员;
4.“装备与工程伪装技术重点实验室”学术委员会委员;
5.中电16所低温制冷学术委员会委员;
7.国际会议NanoRad2015(上海)和2016(新加坡)分会主席和NanoRad2017(韩国)科学委员会成员。
获奖情况 | Awards and Honor |
2008.10 安徽省教坛新秀奖
2008.10 中科院教学成果二等奖
2009.10 中国科大优秀教材一等奖
2014.06 中国科大青年教师教学竞赛二等奖
2015.12 第八届平凡基金教育奖