黄金城最新网站667722

[1]       Zhiliang Li¹, Qing Wang¹, Xiaofeng Yang, Shiyu Song, and Jianglong Wang* Shu-Fang Wang*, Quasi-commercial production of SnS-based nanosheets with enhanced thermoelectric performance via a wet chemical synthesis, Chemical Engineering Journal, 2021, 430(2022), 133049 (一区, IF=13.3).

[2]       Qing Wang, Zhiliang Li*(通讯作者), Xiaofeng Yang, Xin Qian, Linjuan Guo, Jianglong Wang, Dan Zhang, and Shu-Fang Wang*, Improving electrical and thermal properties synchronously via introducing CsPbBr₃ QDs into higher manganese silicides, Journal of Materials Science and Technology, 2022, 111, 279-286 (一区, IF=8.1).

[3]       Shuaihang Hou, Zhiliang Li*(通讯作者), Yuli Xue, Xinkun Ning, Jianglong Wang*, Shufang Wang*, Surprisingly high in-plane thermoelectric performance in a-axis-oriented epitaxial SnSe thin films, Materials Today Physics, 2021, 18, 100399 (一区, IF=9.3).

[4]       Qing Wang, Shiyu Song, Xiaofeng Yang, Ziyang Liu, Yufei Ma, Xingyuan San, Jianglong Wang, Dan Zhang*, Shu-Fang Wang*, Zhiliang Li*(通讯作者), Incorporating element doping and quantum dot embedding effects to enhance the thermoelectric properties of higher manganese silicides, Journal of Materiomics, 2021, 7(2), 377-387 (二区, IF=6.4).

[5]       Aiai Wang¹, Yuli Xue¹, Jingxuan Wang, Xiaoqi Yang, Jianglong Wang, Zhiliang Li*(通讯作者), Shufang Wang*, High thermoelectric performance of Cu₂Se-based thin films with adjustable element ratios by pulsed laser deposition, Materials Today Energy, 2022, Accept (二区, IF=7.3).

[6]       Boyi Wang, Shuqi Zheng^*, Yuxuan Chen, Qing Wang, Zhiliang Li*(通讯作者), Yue Wu, Juan Li, Yuning Mu, Shouwu Xu, Jingxuan Liang, Realizing ultralow thermal conductivity in Cu₃SbSe₄ via all-scale phonon scattering by co-constructing multiscale heterostructure and IIIB element doping, Materials Today Energy, 2021, 19, 100620 (二区, IF=7.3).

[7]       Zhiliang Li, Jin-Feng Dong, Fu-Hua Sun, Asfandiyar, Yu Pan, Shu-Fang Wang^*, Qing Wang, Dan Zhang, Lei Zhao^*, Jing-Feng Li^*,MnS Incorporation into Higher Manganese Silicide Yields a Green Thermoelectric Composite with High Performance/Price Ratio, Advanced Science, 2018, 5, 1800626 (一区, IF=15.8).

[8]       Zhiliang Li, Jin-Feng Dong, Fu-Hua Sun, Shinsuke Hirono, Jing-Feng Li^*, Significant Enhancement of the Thermoelectric Performance of Higher Manganese Silicide by Incorporating MnTe Nanophase Derived from Te Nanowire, Chemistry of Materials, 2017, 29, 7378-7389 (一区, IF=10.2).

[9]       Zhiliang Li, Yudong Chen, Jing-Feng Li, Hong Chen, Lijun Wang, Shuqi Zheng^*, Guiwu Lu, Systhesizing SnTe nanocrystals leading to thermoelectric performance enhancement via an ultra-fast microwave hydrothermal method, Nano Energy, 2016, 28, 78-86 (一区, IF=15.5).

[10]    Asfandiyar, Tian-Ran Wei, Zhiliang Li*(通讯作者), Fu-Hua Sun, Yu Pan, Chao-Feng Wu, Muhammad Umer Farooq, Huaichao Tang, Fu Li, Bo Li, Jing-Feng Li^*, Thermoelectric SnS and SnS-SnSe solid solutions prepared by mechanical alloying and spark plasma sintering: Anisotropic thermoelectric properties, Scientific Reports, 2017, 7, 43262 (三区, IF=4.1).

[11]    Zhiliang Li, Shuqi Zheng^*, Yuzhuo Zhang, Renyuan Teng, Ting Huang, Changfeng Chen, Guiwu Lu, Controlled synthesis of tellurium nanowries and nanotubes via a facial, efficent, and relatively green solution phase method, Journal of Materials Chemistry A, 2013, 1, 15046-15052 (一区, IF=10.7).

[12]    Zhiliang Li, Shuqi Zheng^*, Ting Huang, Yuzhuo Zhang, Renyuan Teng, Guiwu Lu, Rational design, high-yield synthesis and low thermal conductivity of Te/Bi₂Te₃ core/shell heterostructure nanotube composites, Journal of Alloys and Compounds, 2014, 617, 247-252 (二区, IF=4.2).