Name:Yu Wei
	Title:Professor
	Email:yuwei@sspu.edu.cn
	OfficeLocation: School of Energy and Materials, No. 2360 Jinhai Road, Pudong NewArea, Shanghai
	TeamHome Page: None

　　EducationBackground and Working Experience

　　Jan2021-present Deputy Director, Shanghai Engineering Research Center of AdvancedThermal Functional Materials

　　Jan2019-present Deputy Director, Shanghai Key Laboratory for Engineering MaterialsApplication & Evaluation

　　Jan2015-present Director, Department Head and Professor (of the third grade), theInternational Joint Research Center for Energy Saving and New Energy Materials,Shanghai Polytechnic University

　　Mar2010-Mar 2011 Post Doctor, Department of Mechanical Engineering, Iowa StateUniversity, USA

　　Oct2007-Dec 2014 Lecturer and Associate Professor, Shanghai Polytechnic University

　　Jul2004-Oct 2007 PhD Candidate, Beijing Institute of Technology

　　TeachingCourses

　　EngineeringThermophysics and Energy Utilization, Introduction to Material Chemistry,Material Technology, How to Search Literatures and Write a Scientific Paper

　　ResearchInterests

　　1.Thermal interface materials, nanofluids, thermal functional materials, etc.;

　　2.Thermophysical properties of low dimensional materials;

　　3.Carbon materials and nanomaterials;

　　4.Photothermal absorption and storage

　　Government-SponsoredProjects Undertaken as a Leader

　　1.Project leader of National Natural Science Foundation of China (general):experimental and theoretical research on constructing three-dimensional elasticphase change heat conduction network to reduce interface thermal resistance

　　2.Principal investigator of National Natural Science Foundation of China (sub-projectof major project): basic research on energy transfer and conversion in solarenergy utilization

　　3.Project leader of National Natural Science Foundation of China (general):research on influence of morphology evolution of low-dimensional nanostructureson heat transport properties of composite interface materials

　　4.Project leader of National Natural Science Foundation of China (youth):research on the design and heat transfer mechanism of graphene-based thermalinterface materials with high thermal conductivity

　　5.Project leader of Project of Shanghai Science and Technology Commission:research on photothermal characteristics and system application of directabsorption solar collector nanofluids

　　6.Project leader of Scientific Research Foundation for the Returned OverseasChinese Scholars, Ministry of Education of China: research on the heat transfercharacteristics of graphene-based polymer composites

　　7.Project leader of Shanghai Municipal Education Commission (Key InnovationProject): research on the construction and heat transfer mechanism of graphenethermal conductive network

　　8.Project leader of Excellent Youth Program of Shanghai Municipal EducationCommission: research on preparation and performance of monodisperse metalnanoparticles

　　9.Project leader of sShanghai Municipal Education Commission Innovation Project:research on preparation and enhanced heat transfer performance ofgraphene-based nanofluids

　　10.Project leader of Shanghai Education Development Foundation (Chenguang Plan):research on one-step preparation and enhanced heat transfer performance ofnanofluids

　　11.Project leader of Industry-University-Research Program of Shanghai MunicipalEducation Commission: research on high thermal conductivity composites

　　12.Project leader of Shanghai Promotion Association of Tech Transfer (AlliancePlan): research on high performance anti-static composites

　　Awardsfor Teaching and Research

　　1.Dawn Scholar

　　2.Baosteel Excellent Teacher Award

　　3.The 2014 Shanghai Natural Science Award (second prize) for the study of"structure-activity relationship and microscopic regulation of heattransport in low dimensional materials"

　　4.The 2013 Innovation and Promotion Award of China Industry-University-Research(CIUR) for the "scale production of graphene and development of highthermal conductivity application products"

　　5.The third prize of outstanding exhibits in the exhibition area of Chineseuniversities on the 15th Session of China International Industry Fair for the"high performance graphene application products"

　　6.The 2018 Innovation and Promotion Award of CIUR (Excellence Award) for theproject of "thermal control technology of micro-nano scale materials andits application"

　　7.The first prize of 2017 Shanghai Teaching Achievement Award for the"ten-year practice and university wide promotion of academic tutors'training throughout the whole cultivating process for undergraduate talents inmaterials"

　　8.The first prize of 2017 Shanghai Teaching Achievement Award for the practiceand exploration of "engineering introduction" talent cultivation modefor Master of Engineering

　　9.The first prize of Teaching Achievement Award of Shanghai PolytechnicUniversity for "the connotation, realization path and effect of researchfeedback teaching"

　　10.The first prize of Teaching Achievement Award of Shanghai PolytechnicUniversity for the "exploration and practice of the innovative talentscultivation in material chemistry"

　　GrantedPatents

　　1.Yu Wei, Xie Huaqing, Chen Lifei and Li Yang, a method for preparinghigh-quality graphene by catalytic oxidation of multiple intercalation, aninvention patent with Patent No.: ZL 201310080369.3, and granting time: May2013

　　2.Yu Wei, Xie Huaqing, Chen Lifei, Li Yang, Wu Zihua, a high thermal conductivitylubricating oil and its preparation method, an invention patent with PatentNo.: ZL 201210434814.7, and granting time: Feb 2013

　　3.Yu Wei, Xie Huaqing, Chen Lifei and Li Yang, a kind of sulfur bonded grapheneporous nanomaterial and its preparation method, an invention patent with PatentNo.: ZL 201310080349.6, and granting time: May 2013

　　4.Xie Huaqing, Chen Lifei, Yu Wei, a surface temperature test circuit and testmethod for graphene nanoribbons, an invention patent with Patent No.:ZL201310078393.3, and granting time: Jun 2013

　　MainPapers

　　1.   ShaoboXi, Lingling Wang,* Huaqing Xie, and Wei Yu*.Superhydrophilic modified elastomeric RGO aerogel based hydrated salt phasechange materials for effective solar thermal conversion and storage[J]. ACSNano, 2022, 16: 3843-3851.

　　2.   Guanzheng Wu , Naici Bing*, Yifan Li , Huaqing Xie ,Wei Yu*. Three-dimensional Directional Cellulose-based Carbon AerogelsComposite Phase Change Materials with Enhanced Broadband Absorption forLight-Thermal-Electric Conversion [J]. Energy Conversion and Management 256(2022) 115361.

　　3.   Li Dai, Xueying Li, Li Zhang*, Pingping Ma, Jie Guan,and Wei Yu*. Facile Preparation of FL-Ti3C2/BiOCl/SnO2 Ternary Composite forPhotocatalytic Degradation of Indoor Formaldehyde [J]. Advanced Composites andHybrid Materials, 2022.

　　4.   Li Zhang*, Li Dai, Xueying Li, Jie Guan, and Wei Yu*.3D structured TiO2-based composite aerogel photocatalyst for high-efficiencydegradation of toluene gas [J]. New Journal of Chemistry, 2022, 48(5),2272-2281.

　　5.    Li Zhang*, Pingping Ma, Li Dai, Zhen Bu, XueyingLi, Wei Yu*, Yiran Cao, Jie Guan. Removal of Pollutants via Synergy ofAdsorption and Photocatalysis over MXene-based Nanocomposites [J]. ChemicalEngineering Journal Advances, 2022.

　　6.   Zhijing Li, Ankang Kan*, Kongxiang Wang, Yan He*, NiZheng, Wei Yu*,Optical properties and photothermal conversion performances ofgraphenebased nanofluids, Applied Thermal Engineering 203 (2022) 117948

　　7.   Jiawei Yang, Wei Yu*, Changqing Liu, Huaqing Xie, HaipingXu*. Phase change mediated graphene hydrogel-based thermal interface materialwith low thermal contact resistance for thermal management. Composite Scienceand Technology 219 (2022) 109223

　　8.   Shaobo Xi, Lingling Wang,* Huaqing Xie, and Wei Yu*.Solar-thermal energy conversion and storage of super black carbon reinforcedmelamine foam aerogel for shape-stable phase change composites[J].International Journal of Hydrogen Energy, 2022, 47: 12024-12035.

　　9.    Naici Bing, Guanzheng Wu , Jie Yang , Lifei Chen*, Huaqing Xie , Wei Yu*. Thermally induced flexible phase change materialscomposites with enhanced thermal conductivity for solar thermal conversion andstorage [J]. Solar Energy Materials and Solar Cells 240 (2022) 111684.

　　10. Yuan Zhang, Yifan Li*, Qiuxing Lei, Xiao Fang, Huaqing Xie, WeiYu*.Tightly-packed fluorinated graphene aerogel/polydimethylsiloxane compositewith excellent thermal management properties，Composites Science and Technology 220 （2022）109302

　　11. Jingqiong Gao, Wei Yu*, Huaqing Xie, Omid Mahian*.Graphene-baseddeep eutectic solvent nanofluids with high photothermal conversion andhigh-grade energy，Renewable Energy，190 （2022）935-944

　　12. Wang Xue Zi, Yu Wei, Wang Ling Ling, XieHuaqing .Verticalorientation graphene/MXene hybrid phase change materials with anisotropicproperties, high enthalpy, and photothermal conversion[J]. Science ChinaTechnological Sciences, 2022: 1-11.

　　13. Zhijie Bao, Naici Bing*, Xiangrong Zhu, Huaqing Xie, Wei Yu*,Ti3C2Tx MXene contained nanofluids with high thermal conductivity, supercolloidal stability and low viscosity, Chemical Engineering Journal 406 (2021)126390

　　14. Kongxiang Wang, Yan He, Zhiheng Zheng*, Jingqiong Gao, HuaqingXie, Wei Yu*, Experimental optimization of nanofluids based direct absorptionsolar collector by optical boundary conditions, Applied Thermal Engineering,182 (2021) 116076

　　15. Debing Wang, Yuxin Fang, Wei Yu *, Lingling Wang, Huaqing Xie,Yanan Yue*, Significant solar energy absorption of MXene Ti3C2Tx nanofluids vialocalized surface plasmon resonance, Solar Energy Materials and Solar Cells,220（2021）110850

　　16. Zhijing Li, Hui Lei*, Ankang Kan, Huaqing Xie, Wei Yu*,Photothermal applications based on graphene and its derivatives: Astate-of-the-art review, Energy, 216 (2021) 119262

　　17. Shaobo Xi, Min Wang, Lingling Wang*, Huaqing Xie, Wei Yu*, 3Dreduced graphene oxide aerogel supported TiO2-x for shape-stable phase changecomposites with high photothermal efficiency and thermal conductivity, SolarEnergy Materials & Solar Cells, 226 (2021) 111068

　　18. Naici Bing, JieYang, HuanGao, Huaqing Xie, WeiYu*, Unsaturatedpolyester resin supported form-stable phase change materials with enhancedthermal conductivity for solar energy storage and conversion，Renewable Energy, 173(2021)926-933.

　　19. Debing Wang, Wenwen Liang, Zhiheng Zheng*, Peiyu Jia, Yunrui Yan,Huaqing Xie, Lingling Wang, Wei Yu*, Highly efficient energy harvest viaexternal rotating magnetic field for oil based nanofluid direct absorptionsolar collector, Green Energy & Environment, 6 (2021) 298-307.

　　20. Hongyun Zhang, Lingling Wang*, Shaobo Xi, Huaqing Xie , Wei Yu*，3D porous copper foam-basedshape-stabilized composite phase change materials for high photothermalconversion, thermal conductivity and storage, Renewable Energy, 175 (2021)307-317.

　　21. Li Zhang, Pingping Ma, Li Dai, Shijie Li, Wei Yu and Jie Guan, Insitu crystallization and growth of TiO2 nanospheres between MXene layers forimproved adsorption and visible light photocatalysis, Catalysis Science &Technology, 11 (2021) 3834-3844.

　　22. Jiawei Yang, Wei Yu*, YuanZhang, Changqing Liu, Huaqing Xie*,Graphene double cross-linked thermally conductive hydrogel with low thermalcontact resistance, flexibility and self-healing performance, InternationalCommunications in Heat and Mass Transfer, 127 (2021) 105537

　　23. Naici Bing, Jie Yang, Yingchun Zhang, Wei Yu*，Lingling Wang and HuaqingXie*, 3D graphene nanofluids with high photothermal conversion and thermaltransportation properties, Sustainable Energy & Fuels, 2020, 4, 1208，DOI: 10.1039/c9se00866g

　　24. Lingling Wang, Min Wang, Zhongping Xu, Wei Yu*, Huaqing Xie**,Well oil dispersed Au/oxygen-deficient TiO2 nanofluids towards full spectrumsolar thermal conversion, Solar Energy Materials and Solar Cells, 212（2020）110575

　　25. Cheng Chen，Yan He，Changqing Liu，Huaqing Xie，Wei Yu*, Comprehensiveexcellent performance for silicone-based thermal interface materials throughthe synergistic effect between graphene and spherical alumina, Journal ofMaterials Science: Materials in Electronics，2020, 31, 4642-4649, DOI: 10.1007/s10854-020-03016-3

　　26. Kongxiang Wang, Jiaojiao Xing, Ankang Kan, Huaqing Xie andWeiYu*,Investigation of Enhanced Volumetric Solar Steam Generation by a LowerConcentration of ZrC Nanofluid, NANO: Brief Reports and Reviews, Vol. 15, No. 3(2020) 2050030, DOI: 10.1142/S1793292020500307

　　27. K. Wang, Y .H, A. Kan, W .Yu**, L. Wang, D. Wang , P.Liu, H. Xie, X. She *, Enhancement of therminol-based nanofluids withreverse-irradiation for medium-temperature direct absorption solar collection,Materials Today Energy, 17 (2020) 100480

　　28. Hongyun Zhang, Kongxiang Wang, Lingling Wang *, Huaqing Xie, WeiYu *, Mesoporous CuO with full spectrum absorption for photothermal conversionin direct absorption solar collectors, Solar Energy, 201(2020) 628-637

　　29. Kongxiang Wang, Yan He, Pengyu Liua, Ankang Kan, Zhiheng Zheng*,Lingling Wang, Huaqing Xie, Wei Yu*, Highly-efficient nanofluid-based directabsorption solar collector enhanced by reverse-irradiation for mediumtemperature applications, Renewable Energy, 159 (2020) 652-662

　　30. Sanli Tang, Xueli Xing , Wei Yu , Jie Sun , Yimin Xuan , Lu Wang, Yangfan Xu , Hui Hong *and Hongguang Jin, Synergizing Photo-Thermal H2 andPhotovoltaics into a Concentrated Sunlight Use, iScience 23, 101012, 2020,DOI:10.1016/j.isci. 2020.101012

　　31. Guangqiao Xu, Li Zhang, Wei Yu*, Zhiguo Sun, Jie Guan,JiaoxiaZhang, Jing Lin, Juying Zhou, Jincheng Fan,Vignesh Murugadoss and Zhanhu Guo*,Low optical dosage  heating-reduced viscosity for fast andlarge-scale cleanup of spilled crude oil by reduced graphene oxide melaminenanocomposite adsorbents, Nanotechnology, 31 (2020) 225402

　　32. Changqing Liu, Cheng Chen, Wei Yu*, Mao Chen, Dongyi Zhou,Huaqing Xie**, Thermal properties of a novel form-stable phase change thermalinterface materials olefin block copolymer/paraffin filled with Al2O3,International Journal of Thermal Sciences, 152 (2020)106293,DOI:10.1016/j.ijthermalsci.2020.106293

　　33.Zhu Dahai, Yu Wei *, Zhu Guihua, Zhang Yingchun, Xie Huaqing *, The effect ofcopper oxide morphology on the enhanced heat transfer performance ofnanofluids, Science Bulletin, 2020, 65: 222 – 228, doi: 10.1360/TB-2019-0389

　　34.Wang Debing, Wang Lingling, Yu Wei *, Xie Huaqing, a directly usable magneticphotothermal nanofluid, Journal of Engineering Thermophysics, Vol. 41, No. 2,0253-231X (2020) 02-0443-05

　　35. Changqing Liu, Wei Yu*, Cheng Chen, Huaqing Xie, Bingyang Cao*,Remarkably reduced thermal contact resistance of graphene/olefin blockcopolymer/paraffin form stable phase change thermal interface material,International Journal of Heat & Mass Transfer, 163, 12039, 2020

　　36. Kongxiang Wang, Yan He, Ankang Kan, Wei Yu*, Debing Wang, LiyieZhang, Guihua Zhu, Huaqing Xie, Xiaohui She*, Significant PhotothermalConversion Enhancement of Nanofluids Induced by Bernard Convection for DirectAbsorption Solar Collectors, Applied Energy, 2019, 254:113706

　　37. Guihua Zhu, Lingling Wang, Naici Bing*, Huaqing Xi, Wei Yu*,Enhancement of photothermal conversion performance using nanofluids based onbimetallic Ag-Au alloys in nitrogen-doped graphitic polyhedrons, Energy, 2019,183: 747-755

　　38. Debing Wang, Yanlin Jia, Yan He, Lingling Wang*, Huaqing Xie, WeiYu*, Photothermal efficiency enhancement of a nanofluid-based direct absorptionsolar collector utilizing magnetic nano-rotor, Energy Conversion andManagement, 2019, 199, 111996

　　39. Jie Yang, Yanlin Jia, Naici Bing, Lingling Wang, Huaqing Xie, WeiYu*, Reduced graphene oxide and zirconium carbide co-modified melaminesponge/paraffin wax composites as new form-stable phase change materials forphotothermal energy conversion and storage, Applied Thermal Engineering, 2019,163:114412

　　40. Xiaojia Li, Guangqiao Xu, Guilong Peng, Nuo Yang, Wei Yu*,Chengcheng Deng*, Efficiency enhancement on the solar steam generation by wickmaterials with wrapped graphene nanoparticles, Applied Thermal Engineering,2019, 161:114195

　　41. Lingling Wang, Guihua Zhu, Min Wang, Wei Yu*, Jia Zeng, XiaoxiaoYu, Huaqing Xi, Qiang Li*, Dual plasmonic Au/TiN nanofluids for efficient solarphotothermal conversion, Solar Energy, 2019, 184: 240-248

　　42. Debing Wang, Yanlin Jia, Yan He*, Lingling Wang, Jinghong Fan,Huaqing Xie, WeiYu*, Enhanced Photothermal Conversion Properties of MagneticNanofluids through Rotating Magnetic Field for Direct Absorption SolarCollector, Journal of Colloid and Interface Science, 557 (2019) 266–275

　　43. Dahai Zhu, Guiwen Huang, Liye Zhang, Yan He*, Huaqing Xie, WeiYu*, Silver Nanowires Contained Nanofluids with Enhanced Optical Absorption andThermal Transportation Properties, Energy & Environmental Materials, 2019,2: 22-29

　　44. Guihua Zhu, Lingling Wang*, Yali Zhang, Wei Yu*, Huaqing Xie,Au-Ag alloy nanoparticles supported on ordered mesoporous carbon (CMK-3) withremarkable solar thermal conversion efficiency, Applied Physics A, 2019,125:151

　　45. Min Wang, Lingling Wang*, Wei Yu*, Huaqing Xie, Au nanoparticlessupported on Bi2WO6 nanosheets for broad‑band absorption and good solar thermalconversion,  Journal of Materials Science: Materials in Electronics, 2019,30(10): 9388–9395.

　　46.Liu Changqing, Wang Debing, He Yan, * Wang Kongxiang, Yu Wei, * Medium-hightemperature solar body heat absorption and collection system based on magneticnanofluids, Science Bulletin, Vol. 64, Issue 28-29: 3041-3048 (2019)

　　47. Guihua Zhu, Lingling Wang, Naici Bing*, Huaqing Xi, Wei Yu*,Enhancement of photothermal conversion performance using nanofluids based onbimetallic Ag-Au alloys in nitrogen-doped graphitic polyhedrons, Energy, 2019,183: 747-755

　　48. Jie Yang, Yanlin Jia, Naici Bing, Lingling Wang, Huaqing Xie, WeiYu*, Reduced graphene oxide and zirconium carbide co-modified melaminesponge/paraffin wax composites as new form-stable phase change materials forphotothermal energy conversion and storage, Applied Thermal Engineering, 2019,163:114412

　　49. Xiaojia Li, Guangqiao Xu, Guilong Peng, Nuo Yang, Wei Yu*,Chengcheng Deng*, Efficiency enhancement on the solar steam generation by wickmaterials with wrapped graphene nanoparticles, Applied Thermal Engineering,2019, 161:114195

　　50. Lingling Wang, Guihua Zhu, Min Wang, Wei Yu*, Jia Zeng, XiaoxiaoYu, Huaqing Xi, Qiang Li*, Dual plasmonic Au/TiN nanofluids for efficient solarphotothermal conversion, Solar Energy, 2019, 184: 240-248

　　51. Debing Wang, Yanlin Jia, Yan He*, Lingling Wang, Jinghong Fan,Huaqing Xie, WeiYu*, Enhanced Photothermal Conversion Properties of MagneticNanofluids through Rotating Magnetic Field for Direct Absorption SolarCollector, Journal of Colloid and Interface Science, 557 (2019) 266–275

　　52. Dahai Zhu, Guiwen Huang, Liye Zhang, Yan He*, Huaqing Xie, WeiYu*, Silver Nanowires Contained Nanofluids with Enhanced Optical Absorption andThermal Transportation Properties, Energy & Environmental Materials, 2019,2: 22-29

　　53. Guihua Zhu, Lingling Wang*, Yali Zhang, Wei Yu*, Huaqing Xie,Au-Ag alloy nanoparticles supported on ordered mesoporous carbon (CMK-3) withremarkable solar thermal conversion efficiency, Applied Physics A, 2019,125:151

　　54. Min Wang, Lingling Wang*, Wei Yu*, Huaqing Xie, Au nanoparticlessupported on Bi2WO6 nanosheets for broad‑band absorption and good solar thermalconversion,  Journal of Materials Science: Materials in Electronics, 2019,30(10): 9388–9395.

　　55. Kongxiang Wang, Yan He, Ankang Kan, Wei Yu*, Debing Wang, LiyieZhang, Guihua Zhu, Huaqing Xie, Xiaohui She*, Significant PhotothermalConversion Enhancement of Nanofluids Induced by Bernard Convection for Direct AbsorptionSolar Collectors, Applied Energy, 2019, 254:113706