1996.9-2000.6 大连理工大学物理系 本科

2000.9-2007.3 大连理工大学电信学院电子系 硕博

2007.3-2011.12大连理工大学电子科学与技术学院 讲师

2011.12-至今 大连理工大学电子科学与技术学院 副教授

2014.8-2015.8 美国普渡大学访问学者，合作导师：Tim Fisher教授

IEEE会员（M07）

研究领域（研究课题）

微器件中的微尺度传热

硕博研究方向

微器件中的微尺度传热
低维材料的热物性测试方法研究
分子动力学模拟研究

[1] Li T, Tang Z, Huang Z*, Yu J. Interfacial thermal resistance of 2D and 1D carbon/hexagonal boron nitride van der Waals heterostructures. Carbon, 2016, http://dx.doi.org/10.1016/j.carbon.2016.05.001.

[2] 黄正兴*, 孙童童, 李倩倩. 纳米尺度水薄膜液-汽相变的分子动力学模拟. 大连理工大学学报, 2016(Accepted).

[3] 王立莹, 黄正兴*, 唐祯安. 铜/石墨烯柱结构热导的分子动力学研究. 电子器件, 2016, 39(1): 1-5.

[4] 黄正兴, 关经纬, 吴昊, 余隽, 唐祯安. 比较法研究微细尺度氮化硅表面自然对流换热. 电子器件, 2016(Accepted).

[5] 关经纬, 黄正兴*, 唐祯安. 微热板中微纳空气间隙传热特性研究. 感测器与微系统, 2016(Accepted).

[6] Shen N, Huang Z X, Tang Z A. A Double-Sacrificial-Layer Uncooled Infrared Microbolometer in a Standard CMOS Process. 2015 IEEE Region 10 Conference (Tencon 2015). 2015.

[7] Shen N, Huang Z X, Tang Z A. A Low-Cost Uncooled Infrared Microbolometer by CMOS Process. ECS Solid State Letters, 2015, 4(7): Q29-Q31.

[8] Huang Z X*, Wang L Y, Bai S Y, Tang Z A. Thermal Conductance of Cu and Carbon Nanotube Interface Enhanced by a Graphene Layer. Chinese Physics Letters, 2015, 32(8): 086801(3pp.).

2014年及以前的论文：

[1] Zheng K, Wang L, Bai S Y, Yu J, Tang Z A, Huang Z*, An anomalous wave-like kinetic energy transport in graphene nanoribbons at high heat flux, Physica B 434 (2014) 64-68.（通讯作者，第一作者为所指导的研究生）

[2] Yu J, Sun C Y, Huang Z X, Wu H , Tang Z A, A Double Layer Micro-bridge Calorimeter, in: IEEE sensors 2011 conference, Ireland, 2011.

[3] Z.X. Huang, Z.A. Tang, J. Yu, S.Y. Bai, Thermal conductivity of nanoscale polycrystalline ZnO thin films, Physica B 406 (2011) 818-823.

[4] Z. Huang, Z. Tang, J. Yu, S. Bai, Temperature dependent thermal conductivity of bent carbon nanotubes by molecular dynamics simulation, J. Appl. Phys. 109 (2011) 104316.

[5] J. Yu, Z.A. Tang, F.T. Zhang, H.T. Ding, Z.X. Huang, Measurement of the Heat Capacity of Copper Thin Films Using a Micropulse Calorimeter, Journal of Heat Transfer-Transactions of the Asme 132 (2010) 012403.

[6] J. Yu, Z.A. Tang, G.Z. Yan, P.C.H. Chan, Z.X. Huang, An experimental study on micro-gas sensors with strip shape tin oxide thin films, Sensors and Actuators B-Chemical 139 (2009) 346-352.

[7] Yu J, Tang Z A, Huang Z X, F. C, Simulation of heat transfer in bridge-based micro calorimeters, in: 7th Inter. Conf. Nanochannels, Microchannels, and Minichannels, Pohang, South Korea, 2009, pp. 1179-1183.

[8] Z.X. Huang, Z.A. Tang, J. Yu, S.Y. Bai, Thermal conductivity of amorphous and crystalline thin films by molecular dynamics simulation, Physica B 404 (2009) 1790-1793.

[9] S.Y. Bai, Z.A. Tang, Z.X. Huang, J. Yu, J. Wang, G.C. Liu, Preparation and Thermal Characterization of Diamond-Like Carbon Films, Chin Phys Lett 26 (2009) 076601.

[10] S.Y. Bai, Z.A. Tang, Z.X. Huang, J. Yu, Thermal Characterization of Si3N4 Thin Films Using Transient Thermoreflectance Technique, IEEE Transactions on Industrial Electronics 56 (2009) 3238-3243.

[11] 余隽，唐祯安，黄正兴，陈正豪, 微热板阵列的热干扰, 半导体学报 29 (2008) 1581-1584.

[12] P. Lv, Z.A. Tang, J. Yu, F.T. Zhang, G.F. Wei, Z.X. Huang, Y. Hu, Study on a micro-gas sensor with SnO2-NiO sensitive film for indoor formaldehyde detection, Sensors and Actuators B-Chemical 132 (2008) 74-80.

[13] S.Y. Bai, Z.A. Tang, Z.X. Huang, J. Yu, J.Q. Wang, Thermal conductivity measurement of submicron-thick aluminium oxide thin films by a transient thermo-reflectance technique, Chin Phys Lett 25 (2008) 593-596.

[14] P. Lv, Z. Tang, G.F. Wei, J. Yu, Z.X. Huang, Recognizing indoor formaldehyde in binary gas mixtures with a micro gas sensor array and a neural network, Measurement Science & Technology 18 (2007) 2997-3004.

[15] Z.X. Huang, Z.A. Tang, J. Yu, S.Y. Bai, Temperature dependence of thermal conductivity of amorphous and crystal thin film by molecular dynamics simulation, in: 5th International Conference on Nanochannels, Microchannels and Minichannels, Puebla, Mexico, 2007.

[16] S.Y. Bai, Z.A. Tang, Z.X. Huang, J. Wang, Transient thermoreflectance measurement of thermal conductivity of nanoscale silicon nitride thin films, in: 5th International Conference on Nanochannels, Microchannels and Minichannels, Puebla, Mexico, 2007.

[17] Z.X. Huang, Z.A. Tang, Z.Q. Xu, H.T. Ding, Y.Q. Gu, A genetic algorithm for simultaneous determination of thin films thermal transport properties and contact resistance, Journal of Materials Science & Technology 22 (2006) 339-341.

[18] Z.X. Huang, Z.A. Tang, Evaluation of momentum conservation influence in non-equilibrium molecular dynamics methods to compute thermal conductivity, Physica B 373 (2006) 291-296.

[19] 许自强，唐祯安，黄正兴等, 基于交流量热法的薄膜热扩散率自动测试系统的研究, 仪器仪表学报 26 (2005) 797-800.

[20] 唐祯安，丁海涛，黄正兴等, 二氧化硅薄膜热容的分子动力学模拟计算, 大连理工大学学报 45 (2005) 313-315.

[21] 黄正兴，唐祯安，许自强等, 瞬太热反射方法测试亚微米介质薄膜热导率, in: 2004年全国博士生学术论坛, 哈尔滨工业大学, 哈尔滨, 2004, pp. 20-25.

[22] Z.X. Huang, Z.A. Tang, Z.Q. Xu, H.T. Ding, Y.Q. Gu, In-plane thermal diffusivity measurement of thin films based on the alternating-current calorimetric method using an optical reflectivity technique, Chin Phys Lett 21 (2004) 713-715.

[23] 唐祯安，黄正兴，顾毓沁等, MEMS中薄膜热物性测试方法研究, 仪表技术与感测器 1 (2003) 6-11.

[24] 唐祯安，黄正兴，丁海涛等, MEMS中薄膜热物性的分子动力学模拟, 全国薄膜技术学术研讨会论文集 1 (2003) 56-57.

[25] 黄正兴，唐祯安，张虹霞等, 微尺度热传导现象及其研究状况, 化工进展 22 (2003) 80-85.

[26] 黄正兴，唐祯安，申爽等, 气压和流速对微热板气体感测器的影响, 仪器仪表学报 23 (2002) 54-55.

[27] Z.X. Huang, Z.A. Tang, H.J. Chen, L.Z. Ma, X.H. Ding, S. Shen, Ultrafast laser measurement of thermal diffusivity of thin dielectric films, in: Proceedings of 2nd international symposium on instrumentation science and technology, Harbin Institute of Technology, Jinan, China, 2002, pp. 2-177.