Rational design of magnetically separable core/shell Fe3O4/ZnO heterostructures for enhanced visible-light photodegradation performance

Hoai Linh Pham; Van Dang Nguyen; Van Khien Nguyen; Thi Hong Phong Le; Ngoc Bach Ta; Do Chung Pham; Quoc Toan Tran; Van Thanh Dang

doi:10.1039/d1ra03468e

Rational design of magnetically separable core/shell Fe₃O₄/ZnO heterostructures for enhanced visible-light photodegradation performance

RSC Adv. 2021 Jun 24;11(36):22317-22326. doi: 10.1039/d1ra03468e. eCollection 2021 Jun 21.

Authors

Hoai Linh Pham^{1

2}, Van Dang Nguyen³, Van Khien Nguyen³, Thi Hong Phong Le¹, Ngoc Bach Ta¹, Do Chung Pham⁴, Quoc Toan Tran⁵, Van Thanh Dang⁶

Affiliations

¹ Institute of Materials Science, Vietnam Academy of Science and Technology Hanoi Vietnam.
² Graduate University of Science and Technology, Vietnam Academy of Science and Technology Hanoi Vietnam.
³ Department of Physics and Technology, TNU-University of Sciences Thai Nguyen Vietnam dangnv@tnus.edu.vn.
⁴ Department of Physics, Hanoi National University of Education 136 Xuan Thuy Road, Cau Giay District Hanoi 100000 Vietnam.
⁵ Department of Chemistry, Thai Nguyen University of Education Vietnam.
⁶ TNU - University of Medicine and Pharmacy Vietnam thanhdv@tnmc.edu.

Abstract

Magnetically separable core/shell Fe₃O₄/ZnO heteronanostructures (MSCSFZ) were synthesized by a facile approach, and their application for enhanced solar photodegradation of RhB was studied. The formation mechanism of MSCSFZ was proposed, in which Fe₃O₄ nanoparticles served as a template for supporting and anchoring the ZnO crystal layer as the shells. The morphology of MSCSFZ can be varied from spherical to rice seed-like structures, and the bandgap was able to be narrowed down to 2.78 eV by controlling the core-shell ratios. As a result, the MSCSFZ exhibited excellent visible-light photocatalytic activity for degradation of rhodamine B (RhB) in aqueous solution as compared to the controlled ZnO nanoparticles. Moreover, MSCSFZ could be easily detached from RhB solution and maintained its performance after 4 cycles of usage. This work provides new insights for the design of high-efficient core/shell recyclable photocatalysts with visible light photocatalytic performance.