Name: Liu Yue

Sex: Male

Title: Associate Professor

Degree: Ph.D.

E-mail: yueliu@ncu.edu.cn

1. Personal Information

Ph.D., Associate Professor, Master's Supervisor. He graduated from Shanghai Jiao Tong University and is primarily engaged in the controlled synthesis of photothermal conversion and catalytic materials, as well as their applications in environmental and energy fields, including solar-driven interfacial water evaporation and intelligent photothermal regulation. He has led one National Youth Natural Science Foundation project, two Jiangxi Provincial Natural Science Foundation projects, and several industry-funded collaborative projects. As the first author or corresponding author, he has published multiple research papers in academic journals such as Nano Energy, Chemical Engineering Journal, Applied Energy, Small, Small Methods, Progress in Organic Coatings, Carbon, and Inorganic Chemistry, and has been granted four patents.

2. Representative papers and patents

[1]Yue Liu#, *, Chujia Xu#, Xintao Xie, Tingkai Wang, Xianfeng Xie, Jianyong Ye, Jia Wang, Sheng Zhuo, Jiang Xu, Weifan Chen*. Leaf-inspired solar evaporators with synergistic regulation of wettability and water supply angle for enhanced energy-mass management. Nano Energy, 2025, 138:110903.

[2]Xu Jiang#, Xu Chujia#, Xie Xintao, Chen Weifan*, Liu Yue*. Optimized nano-heterojunction and hydrophilic carbon cloth for efficient solar driven Dual-Mode desalination and hydroelectricity co-generation. Chemical Engineering Journal, 2024, 498, 155763.

[3]Li Guiqin#, Xu Jiang#, Xu Chujia, Xie Xintao, Chen Weifan*, Liu Yue*. Equilibrium and optimization of water-heat transfer in natural cellulose-based hybrid hydrogel for efficient solar desalination. Chemical Engineering Journal, 2024, 486, 150398.

[4]Xu Jiang, Zhuo Sheng, Luo Yujuan, Xu Chujia, Zhuo Mingpeng, Chen Weifan*, Liu Yue*. 2D/2D Cs0.32WO3/CuS Nano-Heterojunctions for Simultaneous High-Efficiency Solar Desalination, Photocatalytic Decontamination, and Electricity Generation. Small Methods, 2023, 7(9), 2300558.

[5]Li Guiqin, Wang Qing, Wang Jia, Ye Jianyong, Zhou Wenwu, Xu Jiang, Zhuo Sheng, Chen Weifan*, Liu Yue*. Carbon-supported nano tungsten bronze aerogels with synergistically enhanced photothermal conversion performance: Fabrication and application in solar evaporation. Carbon, 2022, 195, 263-271.

[6]Zhuo Sheng#, Zhou Wenwu#, Fang Ping, Ye Jianyong, Luo Haoze, Li Hejun, Wu Changzi, Chen Weifan, Liu Yue*. Cost-effective pearlescent pigments with high near-infrared reflectance and outstanding energy-saving ability for mitigating urban heat island effect. Applied Energy, 2024, 353, 122051.

[7]Yu Danxia, Zhuo Sheng, Wang Jia, Liu Zheng, Ye Jianyong, Wang Yue, Chen Long, Ouyang Xingxing, Zhang Keqin, Zhou Xiaoqing, Guan Jingping, Liu Yue*, Chen Weifan*, Liao Liangsheng, Zhuo Mingpeng*. Thermochromic Ni(II) Organometallics With High Optical Transparency and Low Phase-Transition Temperature for Energy-Saving Smart Windows. Small, 2023, 19(22), 2205833.

[8]Chen Long, Wang Jia, Ye Jianyong, Wang Lizhong, Liu Zheng, Zhuo Sheng, Ouyang Xingxing, Zhou Xiaoqing, Wang Yue, Chen Weifan, Liu Yue*. One-step assembly of organic-inorganic hybrid coatings with superior thermal insulation, sustainable antifogging and self-cleaning capabilities. Progress in Organic Coatings, 2023, 184, 107878.

[9]Wang Jia, Liu Yue*, Ye Jianyong, Zhuo Sheng, Chen Long, Chen Weifan*. Mechanochemical fabrication of α- and h-MoO3 hybrid for superior adsorption of Rhodamine B from aqueous solution. Ceramics International, 2024, 50(9, Part B), 15530-15537.

[10]Fang Ping#, Zhou Shuyang#, Liu Yue*, Ye Jianyong, Wang Lizhong, Li Can, Zhuo Sheng, Chen Weifan*. Solution combustion synthesis of gray-blue Mn-doped YBO3 pigments with high NIR reflectance for energy-saving buildings. Ceramics International, 2022, 48(24), 37203-37211.

[11]Xu Yunpeng#, Liu Yue#, Ye Jianyong, Wang Lizhong, Zhuo Sheng, Chen Weifan*. Ultrathin nanosheet interconnected NixS6/Ni(OH)2 hybrid nanocages: successive self-sacrifice template fabrication and exceptional performance in supercapacitors. Journal of Materials Chemistry C, 2022, 10(16), 6263-6270.