Effects of Cu doping on the surface morphology, microstructure and photoluminescent characteristics of ZnO films

Y. Liu; H. N. Liu; Y. Yu; Z. Wang

doi:10.1179/1432891715Z.0000000001804

Effects of Cu doping on the surface morphology, microstructure and photoluminescent characteristics of ZnO films

Y. Liu, H. N. Liu, Y. Yu, Z. Wang^*

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

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

Abstract

Cu-doped ZnO thin films with a single phase (002) oriented were prepared on glass substrate by magnetron co-sputtering. The influences of Cu doping on the microstructure, surface morphology and photoluminescent characteristics of the films were systematically investigated. XRD and SEM results show that the moderate Cu doping could promote the preferential growth of (002) crystal plane and help Cu atoms orderly merge into lattice of ZnO, but the excessive Cu doping inhibits it. The blue emissions peaks were mainly originated from the transition from the conduction band bottom to Zinc vacancy and the transition from antisite Zinc to zinc vacancy. We can control the intensity of blue emissions peaks by changing the Cu doping content.

Original language	English
Pages (from-to)	798-801
Number of pages	4
Journal	Materials Research Innovations
Volume	19
DOIs	https://doi.org/10.1179/1432891715Z.0000000001804
Publication status	Published - Nov 2015

Keywords

Blue emission peak
Co-sputtering
Cu doping
Microstructure
ZnO films

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10.1179/1432891715Z.0000000001804

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title = "Effects of Cu doping on the surface morphology, microstructure and photoluminescent characteristics of ZnO films",

abstract = "Cu-doped ZnO thin films with a single phase (002) oriented were prepared on glass substrate by magnetron co-sputtering. The influences of Cu doping on the microstructure, surface morphology and photoluminescent characteristics of the films were systematically investigated. XRD and SEM results show that the moderate Cu doping could promote the preferential growth of (002) crystal plane and help Cu atoms orderly merge into lattice of ZnO, but the excessive Cu doping inhibits it. The blue emissions peaks were mainly originated from the transition from the conduction band bottom to Zinc vacancy and the transition from antisite Zinc to zinc vacancy. We can control the intensity of blue emissions peaks by changing the Cu doping content.",

keywords = "Blue emission peak, Co-sputtering, Cu doping, Microstructure, ZnO films",

author = "Y. Liu and Liu, {H. N.} and Y. Yu and Z. Wang",

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T1 - Effects of Cu doping on the surface morphology, microstructure and photoluminescent characteristics of ZnO films

AU - Liu, Y.

AU - Liu, H. N.

AU - Yu, Y.

AU - Wang, Z.

N1 - Publisher Copyright: © W. S. Maney & Son Ltd 2015.

PY - 2015/11

Y1 - 2015/11

N2 - Cu-doped ZnO thin films with a single phase (002) oriented were prepared on glass substrate by magnetron co-sputtering. The influences of Cu doping on the microstructure, surface morphology and photoluminescent characteristics of the films were systematically investigated. XRD and SEM results show that the moderate Cu doping could promote the preferential growth of (002) crystal plane and help Cu atoms orderly merge into lattice of ZnO, but the excessive Cu doping inhibits it. The blue emissions peaks were mainly originated from the transition from the conduction band bottom to Zinc vacancy and the transition from antisite Zinc to zinc vacancy. We can control the intensity of blue emissions peaks by changing the Cu doping content.

AB - Cu-doped ZnO thin films with a single phase (002) oriented were prepared on glass substrate by magnetron co-sputtering. The influences of Cu doping on the microstructure, surface morphology and photoluminescent characteristics of the films were systematically investigated. XRD and SEM results show that the moderate Cu doping could promote the preferential growth of (002) crystal plane and help Cu atoms orderly merge into lattice of ZnO, but the excessive Cu doping inhibits it. The blue emissions peaks were mainly originated from the transition from the conduction band bottom to Zinc vacancy and the transition from antisite Zinc to zinc vacancy. We can control the intensity of blue emissions peaks by changing the Cu doping content.

KW - Blue emission peak

KW - Co-sputtering

KW - Cu doping

KW - Microstructure

KW - ZnO films

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VL - 19

SP - 798

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JO - Materials Research Innovations

JF - Materials Research Innovations

ER -

Effects of Cu doping on the surface morphology, microstructure and photoluminescent characteristics of ZnO films

Abstract

Keywords

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