Synthesis as well as Raman and optical properties of Cu-doped ZnO nanorods prepared at low temperature

Javed Iqbal; Tariq Jan; M. Shafiq; Aqsa Arshad; Naeem Ahmad; Saeed Badshah; Ronghai Yu

doi:10.1016/j.ceramint.2013.07.122

Synthesis as well as Raman and optical properties of Cu-doped ZnO nanorods prepared at low temperature

Javed Iqbal, Tariq Jan, M. Shafiq, Aqsa Arshad, Naeem Ahmad, Saeed Badshah, Ronghai Yu

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

24 Scopus citations

Abstract

Cu-doped ZnO nanorods have been synthesized by a low temperature, simple, fast and versatile fabrication approach. The prepared nanorods have average length and diameter of 500 nm and 40 nm, respectively. The structural and vibrational investigations depict that the prepared nanorods are in a single hexagonal phase and preferably grown along the c-axis. The X-rays photoelectron spectroscopy reveals that Cu is in 2+ oxidation state and doped up to 3% into the ZnO lattice. The magnetic measurements of doped nanorods show diamagnetic behavior at room temperature and paramagnetism at 8 K. The photoluminescence study shows that there is a considerable red-shift in the optical band-gap with Cu doping into ZnO and it exhibits improved luminescence properties. This tuned band-gap makes this a potential material for use in photo-catalysis, optoelectronics and solar-cell nanodevices.

Original language	English
Pages (from-to)	2091-2095
Number of pages	5
Journal	Ceramics International
Volume	40
Issue number	1 PART B
DOIs	https://doi.org/10.1016/j.ceramint.2013.07.122
State	Published - Jan 2014
Externally published	Yes

Keywords

Cu doping
D. ZnO
Nanorods
Red-shift
Tailoring in band-gap

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10.1016/j.ceramint.2013.07.122

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title = "Synthesis as well as Raman and optical properties of Cu-doped ZnO nanorods prepared at low temperature",

abstract = "Cu-doped ZnO nanorods have been synthesized by a low temperature, simple, fast and versatile fabrication approach. The prepared nanorods have average length and diameter of 500 nm and 40 nm, respectively. The structural and vibrational investigations depict that the prepared nanorods are in a single hexagonal phase and preferably grown along the c-axis. The X-rays photoelectron spectroscopy reveals that Cu is in 2+ oxidation state and doped up to 3% into the ZnO lattice. The magnetic measurements of doped nanorods show diamagnetic behavior at room temperature and paramagnetism at 8 K. The photoluminescence study shows that there is a considerable red-shift in the optical band-gap with Cu doping into ZnO and it exhibits improved luminescence properties. This tuned band-gap makes this a potential material for use in photo-catalysis, optoelectronics and solar-cell nanodevices.",

keywords = "Cu doping, D. ZnO, Nanorods, Red-shift, Tailoring in band-gap",

author = "Javed Iqbal and Tariq Jan and M. Shafiq and Aqsa Arshad and Naeem Ahmad and Saeed Badshah and Ronghai Yu",

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AU - Iqbal, Javed

AU - Jan, Tariq

AU - Shafiq, M.

AU - Arshad, Aqsa

AU - Ahmad, Naeem

AU - Badshah, Saeed

AU - Yu, Ronghai

PY - 2014/1

Y1 - 2014/1

N2 - Cu-doped ZnO nanorods have been synthesized by a low temperature, simple, fast and versatile fabrication approach. The prepared nanorods have average length and diameter of 500 nm and 40 nm, respectively. The structural and vibrational investigations depict that the prepared nanorods are in a single hexagonal phase and preferably grown along the c-axis. The X-rays photoelectron spectroscopy reveals that Cu is in 2+ oxidation state and doped up to 3% into the ZnO lattice. The magnetic measurements of doped nanorods show diamagnetic behavior at room temperature and paramagnetism at 8 K. The photoluminescence study shows that there is a considerable red-shift in the optical band-gap with Cu doping into ZnO and it exhibits improved luminescence properties. This tuned band-gap makes this a potential material for use in photo-catalysis, optoelectronics and solar-cell nanodevices.

AB - Cu-doped ZnO nanorods have been synthesized by a low temperature, simple, fast and versatile fabrication approach. The prepared nanorods have average length and diameter of 500 nm and 40 nm, respectively. The structural and vibrational investigations depict that the prepared nanorods are in a single hexagonal phase and preferably grown along the c-axis. The X-rays photoelectron spectroscopy reveals that Cu is in 2+ oxidation state and doped up to 3% into the ZnO lattice. The magnetic measurements of doped nanorods show diamagnetic behavior at room temperature and paramagnetism at 8 K. The photoluminescence study shows that there is a considerable red-shift in the optical band-gap with Cu doping into ZnO and it exhibits improved luminescence properties. This tuned band-gap makes this a potential material for use in photo-catalysis, optoelectronics and solar-cell nanodevices.

KW - Cu doping

KW - D. ZnO

KW - Nanorods

KW - Red-shift

KW - Tailoring in band-gap

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IS - 1 PART B

ER -

Synthesis as well as Raman and optical properties of Cu-doped ZnO nanorods prepared at low temperature

Abstract

Keywords

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