论文
[1]F.Wang, X. Li, Q. Xu, H. Chen, J. W. Xi, F. F. Zhang, Z, Tan, Y. Cheng, S. F. Wang, J. Xing, Q. Chen, J. G. Zhu*,Simultaneous enhancement of electrical and mechanical properties in CaBi2Nb2O9-based ceramics,Journal of the European Ceramic Society.42 (2022) 4196–4211.
[2]F. Wang, X. Li, Q. Xu, N. Chen, H. Chen, Y. Cheng, F. F. Zhang, Z. Tan, J. Xing, Q. Chen, J. G. Zhu*, Influence of acceptor–donor codoping on the structure, electrical properties, and hardness of CaBi2Nb2O9-based ceramics,Journal of Alloys and Compounds. 910 (2022)164853.
[3]F. Wang, X. Li,N.Chen, Z. Tan,S. F.Wang,J. Xing, J. G. Zhu*,Realizing enhanced energy storage performances in(Bi0.5Na0.5)0.7Sr0.3TiO3-basedrelaxor ferroelectrics via components regulation,Ceramics International. 48 (2022) 28704–28711.
[4]F. Wang, H. Yang*, Y. C. Zhang, Enhanced photocatalytic performance of CuBi2O4particles decorated with Ag nanowires,Materials Science in Semiconductor Processing.73 (2018) 58–66.
[5]F. Wang, H. Yang*, H. M. Zhang, J. L. Jiang, Growth process and enhanced photocatalytic performance of CuBi2O4hierarchical microcuboids decorated with AuAg alloy nanoparticles,Journal of Materials Science: Materials in Electronics.29 (2018) 1304–1316.
[6]F. Wang, H. Yang*, H. M. Zhang, J. Y. Su, X. X. Wang, Electrochemical Performance of Morphologically Different Bi2WO6Nanostructures Synthesized via a Hydrothermal Route,Journal of Electronic Materials. 46 (2017) 182–187.
[7]F. Wang, H. Yang*, Y. C. Zhang, H. M. Zhang, KH2PO4-assisted synthesis and electrochemical performance of highly uniform CuBi2O4microspheres hierarchically self-assembled by nanoparticles,Journal of Electronic Materials. 46 (2017) 4774–4783.
[8]F. Wang, H. Yang*, Y. Y. Zhang, R. S. Li, Electrochemical performance of CuBi2O4nanoparticles synthesized via a polyacrylamide gel route,International Journal of Materials Research. 108 (2017) 298–307.
[9]F. Wang, H. Yang*, Y. C. Zhang, H. M. Zhang, R. S. Li, X. X. Wang, Morphology-tailored synthesis of CuBi2O4hierarchical architectures with the aid of KCl and their electrochemical performances,Materials Technology. 32 (2017) 606–613.