[1] Xiangjia Liu, Jin Li*. A method for effectively regulating the green emissions of ZnO through NiS@NiO/rGO. Applied Surface Science, 556: 149805 (2021).
[2] Xin Li Wang, Jin Li*, Wei Meng Liu. Synthesizing pyridinic-N dominate-doped graphene/BiVO4 nanocomposite as a superior photocatalyst for degradation under visible-irradiation. Optical Materials, 114: 110922 (2021).
[3] Xin Li Wang, Jin Li*. Sol-gel fabrication of Ag-Coated ZnO quantum dots nanocomposites with excellent photocatalytic activity. Optical Materials, 118: 111235 (2021).
[4] Nan Qing Yang, Jin Li*, Ya Nan Wang, Jie Ma. Investigation of photocatalytic properties based on Fe and Ce Co-doped ZnO via hydrothermal method and first principles. Materials Science in Semiconductor Processing, 131: 105835 (2021).
[5] Nan Qing Yang, Jin Li*. Construction of a 0D/2D heterojunction based on ZnO nanoparticles and ZnIn2S4 nanosheets to improve photocatalytic degradation efficiency. Optical Materials, 115: 111040 (2021).
[6] Xiang Yu Liu, Jin Li*. S-scheme heterojunction ZnO/g-C3N4 shielding polyester fiber composites for the degradation of MB. Semicond. Sci. Tehcnol., 36: 045025 (13pp) (2021).
[7] Liu, Xiangjia, Li, Jin*. Significantly Enhanced Photoluminescence Performance of NixSy(NiS and Ni9S8)/ZnO Nanorods by a Hydrothermal Method. INORGANIC CHEMISTRY, 59(23): 17184-17190 (2020).
[8] Ya Nan Wang, Jin Li*. Cerium modified rod-like ZnO graphene complex and its photocatalytic properties under visible-light irradiation. Optical Materials, 108: 110203 (2020).
[9] W M Liu, J Li*. Pyridinic N-reduced graphene oxide and ZnO composite synergistically enhance photocatalytic performance. Environmental Science and Pollution Research., 28(5): 5398-5406 (2020).
[10] Ya Nan Wang, Jin Li*, Qian Wang. The performance of daylight photocatalytic activity towards degradation of MB by the flower-like and approximate flower-like complexes of graphene with ZnO and Cerium doped ZnO. Optik - International Journal for Light and Electron Optics, 204: 164131 (2020).
[11] W M Liu, J Li*, H Y Zhang. Reduced graphene oxide modified zinc oxide composites synergistic photocatalytic activity under visible light irradiation. OPTIK, 207: 163778 (2020).
[12] Xiang Jia Liu, Jin Li*, Ben Ze Wu, Ya Nan Wang, Wei Meng Liu. Synthesis and characterization of a Cu2S-modified ZnO-based photocatalyst for enhanced visible light absorption. Functional Materials Letters, 2051014 (5 pages) (2020).
[13] Pengyuan Wang, Liping Yang, Jin Li*, Beysen Sadeh. Zn/ZnO Heterostructure for the Application of MO Degradation and NO Removal. Catalysis Letters, 150(7): 1985-1992 (2020).
[14] Benze Wu, Jin Li*, Qiang Li. Preparation and photoluminescence behavior of Mn-doped nano-ZnO. OPTIK, 188: 205-211 (2019).
[15] Jin Li*, Xiao Ying Guan. Structural and optical properties of Ce doped BiFeO3 nanoparticles via sol-gel method. Micro & Nano Letters, 13(10): 1443-1446 (2019).
[16] Jin Li*, Deng Zhou Yan. Low-temperature synthesis of pure BiFeO3 phase and variation in its morphology with temperature. Ceramics International, 44(15): 18271-18278 (2018).
[17] J. Li*, B. Z. Wu and Z. X. Zhou. Morphology control and optical properties of Bi2O3 crystals prepared by low-temperature liquid phase method. Micro & Nano Letters, 13(10): 1443-1446 (2018).
[18] Jin Li*, Yan Ma. Novel Flower-like Hyperbranched ZnTe Nanostructures Prepared via Catalyst-assisted Vacuum Thermal Evaporation. Ceramics International, 43(15): 11715-11721 (2017).
[19] Liu, K.T., Li, J.*, Xu, J. B. F. L. Xu, L. Wang, L. Bian. Study on dielectric, optic and magnetic properties of manganese and nickel co-doped bismuth ferrite thin film. J Mater Sci: Mater Electron, 28(7): 5609-5614 (2017).
[20] X. Y. Guan, Z. W. Qiao, D. Z. Yan, Y. F. Sun, J. Li*. Investigation on structural and functional properties of Nd doped BiFeO3 particles prepared by hydrothermal method. J. Mater. Sci: Mater. EL., 26(9): 6807-6813 (2015).
[21] J. Li, S. F. Wang, J. K. Jian, Y. F. Sun, J. B. Xu. SnS nanostructures prepared by simple film technique: catalyst-free vacuum thermal evaporation. Micro & Nano Lett., 9(1): 34-36 (2014).
[22] J. Li, L. Wang, J.B. Xu, L. Bian, A.M. Chang, P.J. Zhao, J.Q. Zhang, X.Q. Xiong, F. L. Xu. Synthesis of Nano-BiFeO3 by Low-heating Temperature Solid State Precursor Method: Using Different Types of Alkali. Integr. Ferroelectr., 156(1): 129-136 (2014).
[23] D. Z. Yan, C. L. Sun, J. K. Jian, Y. F Sun, R. Wu, J. Li*. Structure and phase transition of BiFeO3 particles prepared by hydrothermal method and the verification of crystallization-dissolution-crystallization mechanism. J. Mater. Sci: Mater. EL., 25(2): 928-935 (2014).
[24] Z. F. Zhang, J. Li*, J. K. Jian, R. Wu, Y. F. Sun, S. F. Wang, Y. S. Ren, J. J. Li. Preparation of Cr-doped ZnS nanosheets with room temperature ferromagnetism via a solvothermal route. J. Cryst. Growth, 372: 39-42 (2013).
[25] 刘开通,李锦*,王磊,简基康,徐方龙,孙言飞。镍掺杂铁酸铋薄膜的电磁性能研究. 人工晶体学报,42(9): 1842-1847 (2013)。
[26] Yan Ma, Jikang Jian, Rong Wu, Yanfei Sun, Jin Li*. Preparation of CdTe nanostructures with different crystal structures and morphologies. Powder Diffraction, 26(S1): S47-S50 (2011).
[27] Yan Ma, Jikang Jian, Rong Wu, Yanfei Sun, Jin Li*. Growth of single-crystalline ultra-long cadmium telluride micron-size wires via thermal evaporation. Micro Nano Lett., 6(8): 596-598 (2011). |