TY - JOUR
T1 - Ternary Zn1-xNixSe nanostructures as efficient photocatalysts for detoxification of hazardous Congo red, methyl orange, and chrome yellow dyes in wastewater sources
AU - Karuppasamy, K.
AU - Vikraman, Dhanasekaran
AU - Hussain, Tassawar
AU - Hussain, Sajjad
AU - Bose, Ranjith
AU - Sivakumar, Periyasamy
AU - Murthy, Arun Prasad
AU - Alfantazi, Akram
AU - Kim, Hyun Seok
N1 - Funding Information:
This work was supported by the research program of Dongguk University in 2020 (No. S-2020-G0001-00023 and No. S-2020-G0041-00003 ).
Publisher Copyright:
© 2021 Elsevier Inc.
PY - 2021/10
Y1 - 2021/10
N2 - Water contamination by hazardous organic pollutants poses an extreme threat to the environment and globally endangers aquatic life and human health. Hence, the removal of toxic organic effluents from water sources is necessary to ensure a healthy green environment. To this end, a new class of emerging, visible-light-driven Zn- and Ni-based ternary metal-selenide (Zn1-xNixSe) nanophotocatalysts, with tunable nanostructures via regulation of the stoichiometric ratios of Zn and Ni, were synthesized for efficient water purification by a facile one-pot hydrothermal process. These catalysts exhibit outstanding porous properties, with large surface areas and average particle sizes of around 80 ± 10 nm. The as-prepared ternary Zn1-xNixSe catalysts enable improved optical properties, intrinsic conductivity, bandgap reductions, and large numbers of active sites compared with pristine materials, thereby exhibiting outstanding degradation properties against various dye molecules, including Congo red, methyl orange, and chrome-IV upon visible light irradiation. The improved photodegradation capabilities of the Zn1-xNixSe catalysts may be attributed to the synergistic combinations of Zn and Ni selenides, which in turn minimize the recombination rates of the photogenerated carriers compared to their individual constituents. These findings clearly demonstrate that the proposed ternary Zn1-xNixSe catalysts could be potentially used to remove toxic organic contaminants from industrial wastewater.
AB - Water contamination by hazardous organic pollutants poses an extreme threat to the environment and globally endangers aquatic life and human health. Hence, the removal of toxic organic effluents from water sources is necessary to ensure a healthy green environment. To this end, a new class of emerging, visible-light-driven Zn- and Ni-based ternary metal-selenide (Zn1-xNixSe) nanophotocatalysts, with tunable nanostructures via regulation of the stoichiometric ratios of Zn and Ni, were synthesized for efficient water purification by a facile one-pot hydrothermal process. These catalysts exhibit outstanding porous properties, with large surface areas and average particle sizes of around 80 ± 10 nm. The as-prepared ternary Zn1-xNixSe catalysts enable improved optical properties, intrinsic conductivity, bandgap reductions, and large numbers of active sites compared with pristine materials, thereby exhibiting outstanding degradation properties against various dye molecules, including Congo red, methyl orange, and chrome-IV upon visible light irradiation. The improved photodegradation capabilities of the Zn1-xNixSe catalysts may be attributed to the synergistic combinations of Zn and Ni selenides, which in turn minimize the recombination rates of the photogenerated carriers compared to their individual constituents. These findings clearly demonstrate that the proposed ternary Zn1-xNixSe catalysts could be potentially used to remove toxic organic contaminants from industrial wastewater.
KW - Nanoporous
KW - Organic dye molecules
KW - Photodegradation
KW - Wastewater treatment
KW - Zinc-nickel selenide
UR - http://www.scopus.com/inward/record.url?scp=85111344358&partnerID=8YFLogxK
U2 - 10.1016/j.envres.2021.111587
DO - 10.1016/j.envres.2021.111587
M3 - Article
C2 - 34181921
AN - SCOPUS:85111344358
SN - 0013-9351
VL - 201
JO - Environmental Research
JF - Environmental Research
M1 - 111587
ER -