Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies

Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies Publisher

Ghoreishian SM¹ ; Ranjith KS² ; Park B¹ ; Hwang SK¹ ; Hosseini R³ ; Behjatmaneshardakani R⁴ ; Pourmortazavi SM⁵ ; Lee HU⁶ ; Son B⁶ ; Mirsadeghi S⁷ ; Han YK² ; Huh YS¹

Show Affiliations

1. NanoBio High-Tech Materials Research Center, Department of Biological Engineering, Inha University, 100 Inha-ro, Incheon, 22212, South Korea
2. Department of Energy and Materials Engineering, Dongguk University-Seoul, Seoul, 04620, South Korea
3. Department of Mechanical Engineering, South Tehran Branch, Islamic Azad University, Tehran, Iran
4. Department of Chemistry, Payam Noor University, Tehran, 19395-3697, Iran
5. Faculty of Chemistry and Chemical Engineering, Malek Ashtar University of Technology, Tehran, Iran
6. Center for Research Equipment, Korea Basic Science Institute, Daejeon, 34133, South Korea
7. Endocrinology and Metabolism Research Center, Endocrinology and Metabolism Clinical Sciences Institute, Tehran University of Medical Sciences, Tehran, 1411713137, Iran

Source: Chemical Engineering Journal Published:2021

Abstract

Heterostructure-based photocatalysis offers significant potential for developing ultraviolet–visible (UV–Vis) to near-infrared (NIR) light-responsive catalysts with abundant beneficial physicochemical properties to boost environmental remediation upon solar-light irradiation. In this study, for the first time a novel ternary heterostructure photocatalysts containing Bi2S3@CdS@RGO (BCG) were rationally constructed using the hydrothermal approach. The resultant ternary composite with 5 wt% of CdS and 20 wt% of reduced graphene oxide (RGO) contents (BCG-5) was adopted as an optimal sample for photo-reduction of Cr(VI) under simulated solar-light irradiation. The apparent rate constant of the photo-reduction process over BCG-5 was ~ 13, 4, and 3 times higher than those of Bi2S3, CdS, and BC-5, respectively, within 150 min. The enhanced photocatalytic activity of ternary composite could be linked predominantly to the formation of heterostructural, synergistic behavior between the components, hierarchical morphology, the formation of n-n type high-low junctions, efficient interfacial charge-transfer capability, large specific surface area, full-spectrum light-absorption, and outstanding photo-stability. Electron spin resonance and reactive radical-scavenging results demonstrated that the hydroxyl and superoxide active species were primarily responsible for Cr(VI) removal. Furthermore, the photocatalytic activity of BCG-5, as an optimal sample, was further assessed regarding the photocatalytic production of H2O2, with 1.37 and 15.14 times higher efficiency than binary and bare samples, respectively. Assisted by the density functional theory calculations, ultraviolet photoelectron spectroscopy analyses, the charge-carriers pathway and possible photocatalytic mechanism were systematically discussed in S-scheme heterojunction. We expect that our findings will open new horizons for significant applications of bismuth-rich-based heterostructures under both visible- and NIR-light irradiation to address environmental and energy issues. © 2021 Elsevier B.V.

Style	Citing Format
MLA	Ghoreishian SM, et al.. "Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies." Chemical Engineering Journal, vol. 419, no. , 2021, pp. -.
APA	Ghoreishian SM, Ranjith KS, Park B, Hwang SK, Hosseini R, Behjatmaneshardakani R, Pourmortazavi SM, Lee HU, Son B, Mirsadeghi S, Han YK, Huh YS (2021). Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies. Chemical Engineering Journal, 419(), -.
Chicago	Ghoreishian SM, Ranjith KS, Park B, Hwang SK, Hosseini R, Behjatmaneshardakani R, Pourmortazavi SM, et al.. "Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies." Chemical Engineering Journal 419, no. (2021): -.
Harvard	Ghoreishian SM et al. (2021) 'Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies', Chemical Engineering Journal, 419(), pp. -.
Vancouver	Ghoreishian SM, Ranjith KS, Park B, Hwang SK, Hosseini R, Behjatmaneshardakani R, et al.. Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies. Chemical Engineering Journal. 2021;419():-.
BibTex	@article{ author = {Ghoreishian SM and Ranjith KS and Park B and Hwang SK and Hosseini R and Behjatmaneshardakani R and Pourmortazavi SM and Lee HU and Son B and Mirsadeghi S and Han YK and Huh YS}, title = {Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies}, journal = {Chemical Engineering Journal}, volume = {419}, number = {}, pages = {-}, year = {2021} }
RIS	TY - JOUR AU - Ghoreishian SM AU - Ranjith KS AU - Park B AU - Hwang SK AU - Hosseini R AU - Behjatmaneshardakani R AU - Pourmortazavi SM AU - Lee HU AU - Son B AU - Mirsadeghi S AU - Han YK AU - Huh YS TI - Full-Spectrum-Responsive Bi2s3@Cds S-Scheme Heterostructure With Intimated Ultrathin Rgo Toward Photocatalytic Cr(Vi) Reduction and H2o2 Production: Experimental and Dft Studies JO - Chemical Engineering Journal VL - 419 IS - SP - EP - PY - 2021 ER -

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