刘辉东


职称/学术兼职

特聘副研究员 硕导

职位

主要研究方向

(1)异质介质中辐射传输基础理论

(2)多波段隐身伪装技术

(3)光伏光热系统、建筑节能及储能技术

教育工作经历

(一)教育经历

2008.09-2012.06,武汉大学金属材料工程专业,工学学士

2012.09-2018.06,武汉大学热能工程专业,工学博士

(二)工作经历

2018.07-2021.06,武汉大学动力与机械学院,博士后

2021.07-至今,武汉大学动力与机械学院,特聘副研究员

2021.07-至今,武汉大学工业科学研究院,特聘副研究员

论文发表和专利

(1)代表性论文

[1] H.D. Liu#, Z. Huang#, K. Liu*, X.J. Hu*, J. Zhou*. Interfacial Solar-to-Heat Conversion for Desalination [J]. Advanced Energy Materials 2019, 9(21): 1900310. (IF=21.87)

[2] H.D. Liu#, C.Y. Wang#, G.R. Chen#, K. Liu*, J. Chen*. Moisture assisted photo-engineered textiles for visible and self-adaptive infrared dual camouflage [J]. Nano Energy, 2022, 93: 106855.(IF= 16.60)

[3] C.Z. Feng#, P.H. Yang#, H.D. Liu# (共同一作), H.J. Fan*, K. Liu*, et al, Bilayer Porous Polymer for Efficient Passive Building Cooling [J]. Nano Energy, 2021, 85: 105971.(IF= 16.60)

[4] H.D. Liu, X.T. Zhang, B. Yang, X. Liu, H.F. jiang*, X.J. Hu*, et al. A bioinspired capillary-driven pump for solar vapor generation [J]. Nano Energy, 2017, 42:115-121.(IF= 12.34)

[5] L. Huang, Y.P. Wang, H.D. Liu*, K. Liu, X.J. Hu*, et al. Solar-driven co-generation of electricity and water by evaporation cooling [J]. Desalination 2020, 488: 114533. (IF=7.01)

[6] D. Yang, X. Zhao, Y Liu, J.Y. Li, H.D. Liu*, B. Yang*, et al. Enhanced thermal stability of solar selective absorber based on nano-multilayered AlCrSiO films [J]. Solar Energy Materials & Solar Cells 2020, 207: 110331. (IF=6.98)

[7] L. Huang, H.F. Jiang, Y.P. Wang, Z.Q. Ouyang, B. Yang, H.D. Liu*, X.J. Hu*, et al. Enhanced water yield of solar desalination by thermal concentrated multistage distiller [J]. Desalination 2020, 477: 114260. (IF=7.01)

[8] H.D. Liu, T.R. Fu, B. Yang*, X.J. Hu*, et al. Structure and thermal stability of spectrally selective absorber based on AlCrON coating for solar-thermal conversion applications [J]. Solar Energy Materials & Solar Cells, 2016, 157:108-116.(IF=4.78)

[9] H.D Liu, B. Yang*, X.J. Hu*, et al. Optimization of AlCrO-based absorber with Mo infrared reflector for solar selective applications [J]. Vacuum, 2016, 128:27-33.(IF=1.53)

[10] H.D. Liu, X.J. Hu, Yang B*, et al. Long-term thermal stability of CrAlO-based solar selective absorbing coating in elevated temperature air [J]. Solar Energy Materials & Solar Cells, 2015, 134:261-267.(IF=4.73)

[11] H.D. Liu, Q. Wan, B. Yang*, et al. The spectral properties and thermal stability of CrAlO-based solar selective absorbing nanocomposite coating [J]. Solar Energy Materials & Solar Cells, 2014, 122(3):226-232.(IF=5.34)

(2)发明专利

[1] 一种结合辐射制冷和发汗冷却的复合薄膜,ZL202010293419.6 (实审)

[2] 一种智能红外与可见光双波段伪装薄膜及其制备方法,ZL202010173658.8 (授权)

[3] 太阳能电池发汗冷却及多级海水淡化耦合系统,ZL201811613428.8  (实审)

[4] 一种太阳能全光谱利用的水电联产系统,ZL201811205107.4  (实审)

[5] 太阳能热聚焦毛细驱动多级海水淡化系统,ZL 201811204287.4 (授权)

[6] 风光互补耦合海水淡化装置,ZL201710331371.1 (授权)

[7] 多能耦合的海水淡化系统,ZL201710330940.0 (授权)

[8]  一种双相纳米复合太阳能吸收涂层及制造方法,ZL201610931796.1 (授权)

[9]  一种纳米复合Cr-Al-O太阳光谱选择吸收涂层及其制备方法,ZL201310189629.0(授权)

所获荣誉

 

2019年全国博士后创新人才支持计划

职位 科研团队成员 邮箱 liuhuidong30@whu.edu.cn
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