Preparation of a green photocatalyst by immobilization of synthesized ZnO nanosheets on scallop shell for degradation of an azo dye

Mehdi Shirzad-Siboni; Alireza Khataee; Behrouz Vahid; Sang W. Joo; Sevda Fallah

doi:10.2174/1573413710666140521175816

Preparation of a green photocatalyst by immobilization of synthesized ZnO nanosheets on scallop shell for degradation of an azo dye

Mehdi Shirzad-Siboni, Alireza Khataee^*, Behrouz Vahid, Sang W. Joo, Sevda Fallah

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

Photocatalysis of C.I. Acid Red 14 (AR14) by immobilized ZnO nanosheets on scallop shell was investigated. The mean crystallite size of the ZnO nanosheets on scallop shell sample was about 15 nm. Degradation efficiency of AR14 by immobilized ZnO is more efficient than suspension form in identical conditions. Effect of operational parameters including nanocatalyst dosage, pH and initial dye concentration on the UV/ZnO-scallop process was studied. Kinetic of the photocatalytic process was explained in terms of the Langmuir-Hinshelwood model. The values of the kinetic rate and the Langmuir adsorption constants were determined as 0.104 1/(mg/L) and 0.413 (mg/L)/min, respectively. The prepared photocatalyst demonstrated the proper photocatalytic activity even after five successive cycles.

Original language	English
Pages (from-to)	684-694
Number of pages	11
Journal	Current Nanoscience
Volume	10
Issue number	5
DOIs	https://doi.org/10.2174/1573413710666140521175816
Publication status	Published - 2014
Externally published	Yes

Keywords

Nanocatalyst
Nanosheet
Photocatalysis
Scallop shell
Textile dye
Zinc oxide

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title = "Preparation of a green photocatalyst by immobilization of synthesized ZnO nanosheets on scallop shell for degradation of an azo dye",

abstract = "Photocatalysis of C.I. Acid Red 14 (AR14) by immobilized ZnO nanosheets on scallop shell was investigated. The mean crystallite size of the ZnO nanosheets on scallop shell sample was about 15 nm. Degradation efficiency of AR14 by immobilized ZnO is more efficient than suspension form in identical conditions. Effect of operational parameters including nanocatalyst dosage, pH and initial dye concentration on the UV/ZnO-scallop process was studied. Kinetic of the photocatalytic process was explained in terms of the Langmuir-Hinshelwood model. The values of the kinetic rate and the Langmuir adsorption constants were determined as 0.104 1/(mg/L) and 0.413 (mg/L)/min, respectively. The prepared photocatalyst demonstrated the proper photocatalytic activity even after five successive cycles.",

keywords = "Nanocatalyst, Nanosheet, Photocatalysis, Scallop shell, Textile dye, Zinc oxide",

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T1 - Preparation of a green photocatalyst by immobilization of synthesized ZnO nanosheets on scallop shell for degradation of an azo dye

AU - Shirzad-Siboni, Mehdi

AU - Khataee, Alireza

AU - Vahid, Behrouz

AU - Joo, Sang W.

AU - Fallah, Sevda

PY - 2014

Y1 - 2014

N2 - Photocatalysis of C.I. Acid Red 14 (AR14) by immobilized ZnO nanosheets on scallop shell was investigated. The mean crystallite size of the ZnO nanosheets on scallop shell sample was about 15 nm. Degradation efficiency of AR14 by immobilized ZnO is more efficient than suspension form in identical conditions. Effect of operational parameters including nanocatalyst dosage, pH and initial dye concentration on the UV/ZnO-scallop process was studied. Kinetic of the photocatalytic process was explained in terms of the Langmuir-Hinshelwood model. The values of the kinetic rate and the Langmuir adsorption constants were determined as 0.104 1/(mg/L) and 0.413 (mg/L)/min, respectively. The prepared photocatalyst demonstrated the proper photocatalytic activity even after five successive cycles.

AB - Photocatalysis of C.I. Acid Red 14 (AR14) by immobilized ZnO nanosheets on scallop shell was investigated. The mean crystallite size of the ZnO nanosheets on scallop shell sample was about 15 nm. Degradation efficiency of AR14 by immobilized ZnO is more efficient than suspension form in identical conditions. Effect of operational parameters including nanocatalyst dosage, pH and initial dye concentration on the UV/ZnO-scallop process was studied. Kinetic of the photocatalytic process was explained in terms of the Langmuir-Hinshelwood model. The values of the kinetic rate and the Langmuir adsorption constants were determined as 0.104 1/(mg/L) and 0.413 (mg/L)/min, respectively. The prepared photocatalyst demonstrated the proper photocatalytic activity even after five successive cycles.

KW - Nanocatalyst

KW - Nanosheet

KW - Photocatalysis

KW - Scallop shell

KW - Textile dye

KW - Zinc oxide

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DO - 10.2174/1573413710666140521175816

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SN - 1573-4137

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JO - Current Nanoscience

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Preparation of a green photocatalyst by immobilization of synthesized ZnO nanosheets on scallop shell for degradation of an azo dye

Abstract

Keywords

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