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Physico-Chemical Attributes and Photodegradation Assessment of Crystal Violet Dye by Utilizing TiO2/Sn2S3 (Sn = 0.25, 0.50, 0.75 M) Nanocomposite Prepared Via Hydrothermal Strategy

by Matharasi, A. , Mary, T. Arokiya , Ragu, R. , Priya, G. Hannah , Linet, J. Mary , Shaly, A. Alinda , Prabha, A. Surya

in Anatase / Catalysis / Chemistry / Chemistry and Materials Science / Crystal structure / Dyes / Ethanol / Glass substrates / Hydrothermal crystal growth / Inorganic Chemistry / Light emitting diodes / Metal oxides / Microscopy / Nanochemistry / Nanocomposites / Nanomaterials / Nanoparticles / Original Paper / Oxidation / Particle size / Photocatalysis / Photodegradation / Photoluminescence / Physical Chemistry / Quantum dots / Thin films / Tin compounds / Titanium / Titanium dioxide

2023

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Physico-Chemical Attributes and Photodegradation Assessment of Crystal Violet Dye by Utilizing TiO2/Sn2S3 (Sn = 0.25, 0.50, 0.75 M) Nanocomposite Prepared Via Hydrothermal Strategy

by Matharasi, A. , Mary, T. Arokiya , Ragu, R. , Priya, G. Hannah , Linet, J. Mary , Shaly, A. Alinda , Prabha, A. Surya

2023

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Physico-Chemical Attributes and Photodegradation Assessment of Crystal Violet Dye by Utilizing TiO2/Sn2S3 (Sn = 0.25, 0.50, 0.75 M) Nanocomposite Prepared Via Hydrothermal Strategy

by Matharasi, A. , Mary, T. Arokiya , Ragu, R. , Priya, G. Hannah , Linet, J. Mary , Shaly, A. Alinda , Prabha, A. Surya

2023

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Journal Article

Physico-Chemical Attributes and Photodegradation Assessment of Crystal Violet Dye by Utilizing TiO2/Sn2S3 (Sn = 0.25, 0.50, 0.75 M) Nanocomposite Prepared Via Hydrothermal Strategy

Matharasi, A.,

Mary, T. Arokiya,

Ragu, R.,

Priya, G. Hannah,

Linet, J. Mary,

Shaly, A. Alinda,

Prabha, A. Surya

2023

Overview

This work aims to prepare TiO 2 /Sn 2 S 3 quantum dots by simple hydrothermal method. The Sn compound present in the quantum dots were varied in the molar ratio of 0.25 M, 0.50 M and 0.75 M. Furthermore, a comparative analysis was performed using their pristine counterparts. Analysis such as XRD, UV–Visible analysis, FTIR, photoluminescence, HR-SEM, EDAX, HR-TEM, SAED and photocatalytic analysis were performed to identify the various morphology and characteristics of the samples. TiO 2 /Sn 2 S 3 quantum dots possessed tetragonal (anatase) and orthorhombic crystal structure. Crystal violet dye was used to determine the degradation capability of the samples. TiO 2 /Sn 2 S 3 quantum dots with a molar ratio of 0.25 Sn showed a good photocatalytic degradation efficiency of 75.93% for 60 min.

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Publisher

Springer US,Springer Nature B.V

Subject

Anatase

/ Catalysis

/ Chemistry

/ Chemistry and Materials Science

/ Crystal structure

/ Dyes

/ Ethanol