EducationBackground and Working Experience

　　2016~present Professor, School ofEnergy and Materials, Shanghai Polytechnic University

　　2011~2016 Associate Professor,School of Urban Construction and Environmental Engineering, ShanghaiPolytechnic University

　　2008~2011 Lecturer, School of UrbanConstruction and Environmental Engineering, Shanghai Polytechnic University

　　2005~2008 Doctor of MaterialsPhysics and Chemistry, Shanghai Institute of Ceramics, Chinese Academy ofSciences

　　2002~2005 Master of Condensed MatterPhysics, Chongqing University (joint master programme between ChongqingUniversity and Institute of Physics, Chinese Academy of Sciences)

　　1998~2002 Bachelor of Physics,Liaocheng University

　　TeachingCourses

　　Structureand Properties of Materials, Fundamentals of Nanotechnology, SecondaryProjects–LED Energy Saving Lamps, College Students' Participation in ScientificResearch, etc.

　　ResearchInterests

　　1.Thermoelectric materials and devices;

　　2.Photo-thermal conversion materials;

　　3.Solar photoelectric and photo-thermal utilization system.

　　ResearchingProjects

　　1.    2017-2020National Natural Science Foundation of China (General): Mechanism research onthe influence of nanotechnology on the merit of thermoelectric materials andthe process of heat generation and heat transfer of devices.

　　2.    2012-2015National Natural Science Foundation of China (Youth): Research on thermalconductivity and thermoelectric performance control of Zinc Oxide basednanocomposite high-temperature thermoelectric materials.

　　3.    2018-2022Shanghai Dawn Program: Thermoelectric effect coupling in nano thermoelectricmaterials and its influence on performance.

　　4.    2021-2024Shanghai Natural Science Foundation: Research on optimization of heat transferprocess of thermoelectric power generation system based on nanofluids.

　　MainPapers

　　1.    ZhangJ, Zhai H, Wu Z H*, Wang Y Y, Xie H Q*, Experimental investigation of novelintegrated photovoltaic-thermoelectric hybrid devices with enhancedperformance. Solar Energy Materials and Solar Cells, 2020. 215: 110666

　　2.    ZhangJ, Zhai H, Wu Z H*, Wang Y Y, Xie H Q, Zhang M J, Enhanced performance ofphotovoltaic–thermoelectric coupling devices with thermal interface materials.Energy Reports, 2020. 6:116-122

　　3.    LiuA B, Xie H Q, Li Y H, Wang Y Y, Yu E H, Cai X D, Wu Z H *, Improving theperformance of TEM embedded with paraffin-based phase change materials withdifferent thermal conductivity. Journal of Renewable and Sustainable Energy 20:054701

　　4.    YuS Q, Wu Z H*, Feng F, Luan F Y, Wang Y Y, Xie H Q, Template-Free fabrication ofsilicon micropillar structures by a one-step Masking/MACE composite method. ACSApplied Energy Materials, 2020. 3(10):9889-9896

　　5.    LiuA B, Xie H Q, Wang Y Y, Mao J H, Xing J J, Li Y H, Wu Z H*, Effect ofgeometrical structure of embedded phase change material on the power generationof thermoelectric module Thermal Science 2018 22(6): 2691-2698

　　6.    MaoJ H, Xie H Q, Liu A B, Wang Y Y, Li Y H, Xing J J, Wu Z H*, Power generation bythermoelectric generator using different amount of phase change materials.Journal of Thermophysics and Heat Transfer 2018 32(3): 799-805

　　7.    XingJ J, Wu Z H*, Xie H Q, Wang Y Y, Li Y H, Mao J H, Performance of thermoelectricgenerator with graphene nanofluid cooling. Chinese Physics B, 2017. 26(10):034402

　　8.    LiY H, Wu Z H*, Xie H Q, Xing J J, Mao J H, Wang Y Y, Li Z, Study on theperformance of TEG with heat transfer enhancement using graphene-waternanofluid for a TEG cooling system. Science China-Technological Sciences, 2017.60(8):1168

　　9.    XingJ J, Wu Z H*, Xie H Q, Wang Y Y, Mao J H, Thermoelectric Conversion EfficiencyWith Nanofluid Coolant on Thermoelectric Model Cold Side. Journal ofEngineering Thermophysics, 2016 37(7):1523-1526

　　10.  WuZ H, Xie H Q*, Wang Y Y, Mao J H, Xing J J, Li Y H, PPP Addition to ImproveThermoelectric Properties of ZnO-based Thermoelectric Composites. Journal ofInorganic Materials, 2016 31(11):1249-1254

　　11.  WuZ H，Xie H Q*，Zhai Y B，Preparation and thermoelectric properties of Co-doped ZnOsynthesized by Sol–Gel. Journal of Nanoscience andNanotechnology，2015，15（4）：3147-3150

　　12.  WuZ H，Xie H Q*，Wang Y Y, Xing J J, Mao J H, Nanojunctions Contributing to HighPerformance Thermoelectric ZnO-Based Inorganic–Organic Hybrids. Chinese PhysicsLetters, 2015, 32(11): 117303

　　13.  WuZ H，Xie H Q*，Zhai Y B，Gan L H，Liu J，Enhanced thermoelectric performance ofTiO2-based hybrid materials by incorporating conducting polymer. ChinesePhysics B，2015，24（3）：034402

　　GrantedPatents

　　(1) Wu Z H; Yu S Q; Xie H Q; Zhao C;Wang Y Y; Wang X X. Preparation method of silicon-based micro-rods/nanowirecomposite structure, 20215-1, China, ZL201910811705.4

　　(2) Wu Z H; L J H; Xie H Q; Li Y H.A preparation method of cuprous sulfide composite silicon carbide bulkthermoelectric material, Aug 20, 2019, China, 201910767034.6

　　(3) Wu Z H; Xie H Q; Li Y H; Liu AB; Wang Y Y; Xing J J. System and method for simultaneous testing of nanofluidheat transfer coefficient and its influence on power generation efficiency ofthermoelectric power generation systems, Jul 2, 2019, China, ZL201610505891.5

　　(4) Wu Z H; Xie H Q; Mao J H; Wang YY; Xing J J. A system for improving thermoelectric power generation efficiencyby using heat storage function of phase change materials, Dec 28, 2019, China,ZL201610505846.X

　　(5) Wu Z H; Xie H Q; Mao J H; Wang YY; Xing J J. A system for reducing the cold end temperature of thermoelectricdevices using enhanced medium nanofluids, Dec 28, 2018, China, ZL201610505857.8

　　(6) Wu Z H;Wang T T; Xie H Q; Wang Y Y; Huang Y M; Wang Jiawei.A preparation method of carbon blackbone glue nanofluid photo-thermal conversion material, Jan 21, 2022, China,202210076611.9

　　(7) Wu Z H; Zhang J; Xie H Q; Wang YY; Ding S Y; Feng F. Integrated photovoltaic thermoelectric coupling device andits fabrication method, 2021-61, China, ZL201911213399.0

　　Others

　　Recruit 3 master students