Journal of Materials Chemistry A, volume 17, issue 40, pages 4297
Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production
Bharat B. Kale
1
,
Jin-Ook Baeg
2
,
Sanjay K Apte
1
,
R.S Sonawane
1
,
Sonali D Naik
1
,
Kashinath R. Patil
3
1
Center For Materials For Electronics Technology (C-MET), Ministry of Information and Technology, Govt of India, Panchawati, off Pashan Road, Pune, India
|
Publication type: Journal Article
Publication date: 2007-08-22
Journal:
Journal of Materials Chemistry A
Q1
Q1
SJR: 2.804
CiteScore: 19.5
Impact factor: 10.7
ISSN: 20507488, 20507496, 09599428, 13645501
DOI:
10.1039/b708269j
Materials Chemistry
General Chemistry
Abstract
The present work is the investigation of our novel approach to designing quantum dot–glass nanosystems by confining nano CdS in designated glass and the first employment of such a quantum dot system in solar hydrogen production. The CdS quantum dots were grown in a special glass matrix, which involved a sequence of steps. The obtained glass was of uniformly bright yellow in color and the bulk glass was pulverized to a fine powder of micron size particles. The glass powder was characterized structurally and morphologically. X-Ray diffraction and electron diffraction patterns reveal a hexagonal crystallite system for the CdS quantum dots. Field emission scanning electron microscopy, transmission electron microscopy, X-ray photoelectron spectroscopy, X-ray fluorescence spectroscopy and chemical leaching with HCl studies demonstrate that the 2.5 nm size CdS quantum dots distribute homogeneously in a monodispersed form in the glass domain and on the surface with a “partially embedded exposure” configuration. This disposition imparts an excellent photostability against photocorrosion and also a facile catalytic function. Therefore, even a very small amount of CdS quantum dots (0.005 g per gram of glass powder) is able to photodecompose H2S under visible light (λ
≥ 420 nm) both in alkaline and pure aqueous media and produce solar hydrogen with markedly high quantum yields of 17.5 and 11.4%, respectively at 470 nm. Salient features like reusability after simple washing, corrosionless-stability and remarkable catalytic activity of this quantum dot–glass nanosystem are brought forth by our novel catalyst design and are much acclaimed in large scale solar H2 production.
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Kale B. B. et al. Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production // Journal of Materials Chemistry A. 2007. Vol. 17. No. 40. p. 4297.
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Kale B. B., Baeg J., Apte S. K., Sonawane R., Naik S. D., Patil K. R. Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production // Journal of Materials Chemistry A. 2007. Vol. 17. No. 40. p. 4297.
Cite this
RIS
Copy
TY - JOUR
DO - 10.1039/b708269j
UR - https://doi.org/10.1039/b708269j
TI - Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production
T2 - Journal of Materials Chemistry A
AU - Kale, Bharat B.
AU - Baeg, Jin-Ook
AU - Apte, Sanjay K
AU - Sonawane, R.S
AU - Naik, Sonali D
AU - Patil, Kashinath R.
PY - 2007
DA - 2007/08/22
PB - Royal Society of Chemistry (RSC)
SP - 4297
IS - 40
VL - 17
SN - 2050-7488
SN - 2050-7496
SN - 0959-9428
SN - 1364-5501
ER -
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BibTex (up to 50 authors)
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@article{2007_Kale,
author = {Bharat B. Kale and Jin-Ook Baeg and Sanjay K Apte and R.S Sonawane and Sonali D Naik and Kashinath R. Patil},
title = {Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production},
journal = {Journal of Materials Chemistry A},
year = {2007},
volume = {17},
publisher = {Royal Society of Chemistry (RSC)},
month = {aug},
url = {https://doi.org/10.1039/b708269j},
number = {40},
pages = {4297},
doi = {10.1039/b708269j}
}
Cite this
MLA
Copy
Kale, Bharat B., et al. “Confinement of nano CdS in designated glass: a novel functionality of quantum dot–glass nanosystems in solar hydrogen production.” Journal of Materials Chemistry A, vol. 17, no. 40, Aug. 2007, p. 4297. https://doi.org/10.1039/b708269j.