代表性论文专著
PUBLICATIONS (First/co-first/corresponding 18):
[1] Zhenhua Wu, Zhimao Wu, Haoran Lv, Wenbin Zhang, Zekun Liu, Shuai Zhang, Erzhen Mu, Hengxin Lin, Qing Zhang*, Daxiang Cui, Thomas Thundat, Zhiyu Hu*. Nanophotonic catalytic combustion enlightens mid-infrared light source. Nano Research, 2023, 16(9), 11564-11570.
[2] Zekun Liu†, Shuai Zhang†, Zhenhua Wu*(Corresponding), Erzhen Mu, Hong Wei, Yan Liu, Huilie Shi, Zhiyu Hu*. High-Performance Integrated Chip-level Thermoelectric Device for Power Generation and Microflow Detection. Nano Energy, 2023, 114,108611.
[3] Shuai Zhang†, Zhenhua Wu† (Contributed equally), Zekun Liu, Zhiyu Hu*. An emerging energy technology: self-uninterrupted electricity power harvesting from the sun and cold space. Advanced Energy Materials, 2023, 13, 202300260.
[4] Siyuan Luo, Hewei Yuan, Shuai Zhang, Zhenhua Wu*(Corresponding), Ming Li*. 3D hierarchically branched Cu2S/ZnO heterojunction nanowire arrays for enhanced solar water splitting. Materials Today Communications, 2023, 34, 105417.
[5] Zhenhua Wu, Shuai Zhang, Zekun Liu, Eerzhen Mu, Zhiyu Hu*. Thermoelectric converter: Strategies from materials to device application. Nano Energy, 2022, 91, 106692. Link (2022 Top-cited in Nano Energy)
[6] Zekun Liu†, Zhenhua Wu† (Contributed equally), Shuai Zhang, Yanxi Lv, Erzhen Mu, Ruijie Liu, Dongshi Zhang, Zhuguo Li, Zhiyu Hu*. Recognitions of colored fabrics/laser-patterned metals based on photo-thermo-electric effects. Science Advances, 2022, 8(33), eabo7500.
[7] Zhenhua Wu, Zekun Liu, Shuai Zhang, Erzhen Mu, Zhiyu Hu*. Interfacial modulated growth of nanostructured Bi2Te3 films for enhancing thermoelectric performance. Physica Status Solidi A-Applications and Materials Science, 2022, 219(16), 2200108. (Front Cover)
[8] Zhenhua Wu, Zhiyu Hu*. Perspective−Powerful micro/nano-scale heat engine: thermoelectric converter on chip. ECS Sensor Plus, 2022, 1, 023402.
[9] Shuai Zhang†, Zhenhua Wu† (Contributed equally), Zekun Liu, Erzhen Mu, Yang Liu, Yongbo Lv, Thomas Thundat, Zhiyu Hu*. Power generation on chips: Harvesting energy from the sun and cold space. Advanced Materials Technologies, 2022, 7(12), 202200478.
[10] Shuai Zhang†, Zhenhua Wu† (Contributed equally), Zekun Liu, Yongbo Lv, Zhiyu Hu*. Nanostructured broadband solar absorber for effective photothermal conversion and electricity generation. Energies, 2022, 15(4), 1354.
[11] Zhenhua Wu, Yinxiao Feng, Yan Liu, Huilie Shi, Shuai Zhang, Zekun Liu, Zhiyu Hu*. Bipolar resistive switching in the Ag/Sb2Te3/Pt heterojunction. ACS Applied Electronic Materials, 2021, 3(6), 2766-2773.
[12] Zhenhua Wu, Shuai Zhang, Zekun Liu, Cheng Lu, Zhiyu Hu*, Bottom-up (Cu, Ag, Au)/Al2O3/Bi2Te3 assembled thermoelectric heterostructures. Micromachines, 2021, 12(5), 480.
[13] Zhenhua Wu, Lei Lu, Xiaochong Liang, Chaochao Dun, Shicheng Yan, Erzhen Mu, Yang Liu, Zhiyu Hu*. Formation of hexagonal PdSe2 for electronics and catalysis. Journal of Physical Chemistry C, 2020, 124(20), 10935-10940.
[14] Zhenhua Wu, Erhen Mu, Zhanxun Che, Yang Liu, Fangyuan Sun, Zhiyu Hu*. Nanoporous (00l)-oriented Bi2Te3 nanoplate film for improved thermoelectric performance. Journal of Alloys and Compounds, 2020, 828, 154239.
[15] Zhenhua Wu, Xiang Chen, Erzhen Mu, Yang Liu, Zhanxun Che, Chaochao Dun, Fangyuan Sun, Xinwei Wang, Yanliang Zhang, Zhiyu Hu*. Lattice strain enhances thermoelectric properties in Sb2Te3/Te heterostructure. Advanced Electronic Materials, 2019, 6, 1900735.
[16] Zhenhua Wu, Erzhen Mu, Zhichong Wang, Xiang Chen, Zhimao Wu, Yang Liu, Zhiyu Hu*. Bi2Te3 nanoplates’ selective growth morphology on different interfaces for enhancing thermoelectric properties. Crystal Growth & Design, 2019, 19(7), 3639-3649.
[17] Zhenhua Wu, Xiang Chen, Yan Zhang, Chaochao Dun, David L. Carroll, Zhiyu Hu*. In situ electrical properties’ investigation and nanofabrication of Ag/Sb2Te3 assembled multilayers’ film. Advanced Materials Interfaces, 2018, 5(4), 1701210.
[18] Zhenhua Wu, Wan Zheng, Guangqiang Li*, Hiroyuki Matsuura, Fumitaka Tsukihashi. Effect of inclusions’ behavior on the microstructure in Al–Ti deoxidized and magnesium treated steel with different aluminum content. Metallurgical and Materials Transactions B-Process Metallurgy and Materials Processing Science, 2015, 46(3), 1226-1241.
[19] Zhihang Wang, Zhenhua Wu, Zhiyu Hu*, Jessica Orrego-Hernández, Erzhen Mu, Zhao-Yang Zhang, Martyn Jevric, Yang Liu, Xuecheng Fu, Fendang Wang, Tao Li*, Kasper Moth-Pouslen*. Chip-scale solar thermal electrical power generation. Cell Reports Physical Science, 2022, 3(3), 100789. Link (2022 Hot paper in CRPS)
[20] Shuai Zhang, Zhenhua Wu, Zekun Liu, Hengxin Lin, Zeyu Lin, Jiayi Li, Shuang Kong, Zhiyu Hu*. Cost effective 24-h radiative cooler with multiphase interface enhanced solar scattering and thermal emission. Materials Today Communications, 2022, 31, 103398.
[21] Erzhen Mu, Zhenhua Wu, Zhimao Wu, Xiang Chen, Yang Liu, Xuecheng Fu, Zhiyu Hu*. A novel self-powering ultrathin TEG device based on micro/nano emitter for radiative cooling. Nano Energy, 2019, 55, 494-500.
[22] Xiang Chen, Zhenhua Wu, Xuecheng Fu, Erzhen Mu, Zhimao Wu, Zhiyu Hu*. A Comparison of Pt/Si and Pt3Cu/Si Schottky nano-heterojunctions: enhanced direct methanol energy converter based on non-adiabatic system and molecular adsorption. Journal of Materials Science: Materials in Electronics, 2018, 29(19), 16486-16495.
[23] Yangsen Hu, Zhenhua Wu, Fengjie Ye, Zhiyu Hu*. Effects of interfaces on the thermal conductivity in Si/Si0.75Ge0.25 multilayer with varying Au layers. Materials Research Express, 2018, 5(2), 026415.
[24] Wan Zheng, Zhenhua Wu, Guangqiang Li*, Zhan Zhang, Chengyi Zhu. Effect of Al content on the characteristics of inclusions in Al-Ti complex deoxidized steel with calcium treatment. ISIJ International, 2014, 54(8), 1755-1764.
[25] Yang Liu, Erzhen Mu, Zhenhua Wu, Zhanxun Che, Fangyuan Sun, Xuecheng Fu, Fengdan Wang, Xinwei Wang, Zhiyu Hu*. Ultrathin MEMS thermoelectric generator with Bi2Te3/(Pt, Au) multilayers and Sb2Te3 legs. Nano Convergence, 2020, 7, 8.
[26] Yanhui Hou, Wan Zheng, Zhenhua Wu, Guangqiang Li*, Nele Moelans*, Muxing Guo, Babar Shahzad Khan. Study of Mn absorption by complex oxide inclusions in Al-Ti-Mg killed steels. Acta Materialia, 2016, 118(1), 8-16.
[27] Wan Zheng*, Zhenhua Wu, Guangqiang Li, Chengyi Zhu. Effect of Ti-Mg complex deoxidation and sulfur content on the characteristics of inclusions and the precipitation behavior of MnS. Chinese Journal of Engineering, 2015, 37(3), 292-300. (In Chinese)
[28] Wan Zheng*, Lei Liu, Guangqiang Li, Zhenhua Wu, Chengyi Zhu. Refinement mechanisms of inclusions in steel by Ti-Mg deoxidation. Chinese Journal of Engineering, 2015, 37(07), 973-882.(In Chinese)
BOOK or CHAPTER
[1] Zhiyu Hu, Zhenhua Wu. Chapter 3: Nanostructured Multilayer Thermoelectric Film, Key Issues and Disruptive Technologies of Carbon Neutral, Tsinghua University Press, 2022, ISBN: 978-7-302-62109-6.
[2] Zhiyu Hu, Zhenhua Wu. Nanostructured Thermoelectric Films, Springer Singapore, 2020,ISBN: 978-981-15-6517-5.
[3] Zhiyu Hu, Zhenhua Wu. Nanostructured Thermoelectric Films (In Chinese), Shanghai Jiao Tong University Press, 2020, ISBN: 978-7-313-23411-7.
[4] Wan Zheng, Yulong Jiang, Guangqiang Li, Zhenhua Wu. Study on microstructure and properties of welding heat affected zone of X80 pipeline steel treated by Ti deoxidation and Ca; Commemorative Collection of Professor Kaike Cai-Technological Progress of Clean Steel and Continuous Casting Machine (In Chinese), Metallurgical Industry Press, 2015, ISBN: 978-7-5024-6906-1.