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Bi6Fe2Ti3O18 ferroelectrics with various morphologies under mild conditions by crystal growth control for promoted adsorption-piezo-photocatalytic degradation performances

光催化 降级(电信) 吸附 晶体生长 材料科学 化学工程 Crystal(编程语言) 纳米技术 催化作用 化学 工程类 结晶学 有机化学 计算机科学 电子工程 程序设计语言
作者
Zeping Rao,Rui Huang,Wei Cai,Fengqi Wang,Yan Yan,Xue Yang,Fei Long,Zhenhua Wang,Yilong Ma,Rongli Gao,Gang Chen,Xiaoling Deng,Xiang Lei,Chunlin Fu
出处
期刊:Separation and Purification Technology [Elsevier BV]
卷期号:354: 129293-129293 被引量:20
标识
DOI:10.1016/j.seppur.2024.129293
摘要

• Bi 6 Fe 2 Ti 3 O 18 with various morphologies was synthesized via a hydrothermal method. • The surface state of Bi 6 Fe 2 Ti 3 O 18 influences its surface reactivity. • The synergistic effect of morphology control and polarization engineering. Bi 6 Fe 2 Ti 3 O 18 (BFTO) Aurivillius phase layered perovskite ferroelectric materials with spontaneous polarization and piezoelectric effect, have garnered significant attention in photocatalysis owing to their unique advantage of enhancing electron-hole separation. Herein, morphological engineering is used to improve the photocatalytic, piezo-catalytic, and piezo-photocatalytic activities of BFTO, and BFTO nanocrystallites with diverse morphologies such as nanosheet, nanoparticle, nanosheets-assembled flower-like structures were successfully synthesized using a hydrothermal method under mild conditions. Among these structures, the flower-like BFTO sample exhibits efficient absorption of visible light, excellent adsorption performance, enhanced piezoelectric response, and effective carrier separation, thereby contributing to its superior adsorption-photocatalytic, adsorption-piezo-catalytic, and adsorption-piezo-photocatalytic activities for Rhodamine B. Furthermore, corona poling was further applied to enhance the macroscopic polarization and piezoelectric response of the BFTO photocatalyst, thereby leading to more effective separation of photogenerated carriers in the polarized samples. The polarized BFTO microflowers exhibit excellent photocatalytic, piezo-catalytic, and piezo-photocatalytic activities with reaction rate constants of 0.222 min −1 , 0.168 min −1 , and 0.255 min −1 . Based on the results of piezoresponse force microscopy and finite element simulation, the greater piezoelectric response was confirmed in the polarized flower-like BFTO compared to the other samples. Overall, the synergistic effect of morphology control and polarization engineering is effective for achieving Bi-based Aurivillius phase layered perovskite photocatalyst with excellent adsorption-photocatalytic and adsorption-piezo-photocatalytic performances.
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