Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study
Abdullah Al Mamun, M., Monsur Alam, M., Habib, A., Chakma, U., Mokit Sikder, M., Kumer, A. (2021). Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study. EKB Journal Management System, 64(9), 5117-5126. doi: 10.21608/ejchem.2021.66630.3433
Md. Abdullah Al Mamun; Md. Monsur Alam; Ahsan Habib; Unesco Chakma; M.A. Mokit Sikder; Ajoy Kumer. "Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study". EKB Journal Management System, 64, 9, 2021, 5117-5126. doi: 10.21608/ejchem.2021.66630.3433
Abdullah Al Mamun, M., Monsur Alam, M., Habib, A., Chakma, U., Mokit Sikder, M., Kumer, A. (2021). 'Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study', EKB Journal Management System, 64(9), pp. 5117-5126. doi: 10.21608/ejchem.2021.66630.3433
Abdullah Al Mamun, M., Monsur Alam, M., Habib, A., Chakma, U., Mokit Sikder, M., Kumer, A. Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study. EKB Journal Management System, 2021; 64(9): 5117-5126. doi: 10.21608/ejchem.2021.66630.3433

Structural, Electronic, Optical Properties and Molecular Dynamics Study of WO3 W0.97Ag0.03O3 and W0.94Ag0.06O3 Photocatalyst by the First Principle of DFT Study

Egyptian Journal of Chemistry
Article 43, Volume 64, Issue 9, September 2021, Pages 5117-5126    PDF (741.68 K)
Document Type: Original Article
DOI: 10.21608/ejchem.2021.66630.3433
Authors
Md. Abdullah Al Mamun1; Md. Monsur Alam1; Ahsan Habib2, 3; Unesco Chakma4; M.A. Mokit Sikder1; Ajoy Kumer* 5, 6
1Department of Civil Engineering, European University of Bangladesh, Gabtoli, Dhaka-1216, Bangladesh
2Division of Building Material, Housing and Building Research Institute, 120/3, Darussalam, Mirpur Road, Dhaka 1216
3Department of Chemical Engineering and Polymer Science, Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
4Department of Electrical and Electronics Engineering, European University of Bangladesh, Gabtoli, Dhaka-1216, Bangladesh
5Department of Chemistry, European University of Bangladesh, Gabtoli, Dhaka-1216, Bangladesh
6Department of Chemistry, Bangladesh University of Engineering and Technology, Dhaka-1000, Bangladesh
Abstract
This study examined the theoretical impact and modelling of photocatalyst, WO3, on organic pollutant and wastewater treatment. The electronic band structures, total density of state, all optical properties, and photocatalytic activities under UV or visible light were investigated by using first principle method for WO3 and Ag doped by 3% and 6%. In order to calculate band gap, generalized gradient approximation (GGA) based on Perdew- Burke- Ernzerhof (PBE) was used. The band gap for WO3 was found 2.03eV. To recognize the character of photocatalyst activities, the optical properties were investigated and calculated. For obtaining better value in band gap, 3% and 6% Ag were doped; found 0.227eV and 0.171 eV, respectively. Concurrently, optical properties, absorption, refection, refractive index, conductivity, dielectric function and loss function were calculated. Having doped Ag with WO3, the optical properties had changed and improved the photocatalytic effect to the hybridization of 4s, 3d, and 4p orbitals of Ag. From the value of band gap and optical properties, it is clear that W0.97Ag0.03O3 and W0.94Ag0.06O3 can provide better conductivity rather than WO3.
Keywords
Photocatalyst; Electronic structure; DOS; PDOS and optical properties
Statistics
Article View: 904
PDF Download: 533