Please use this identifier to cite or link to this item: http://dspace.unimap.edu.my:80/xmlui/handle/123456789/33532
Title: Influence of dissipation power in copper sputtering plasma measured by optical emission spectroscopy
Authors: Kevin, Low
Nafarizal, Nayan, Prof. Madya Dr.
Mohd Zainizan, Sahdan, Dr.
Abd Kadir, Mahamad, Dr.
Mohd Khairul, Ahmad, Dr.
Ali Yeon, Md Shakaff, Prof. Dr.
Ammar, Zakaria
Fathinul Syahir, Ahmad Sa'ad
Ahmad Faizal, Mohd Zain
jwlow88@hotmail.com
nafa@uthm.edu.my
zainizan@uthm.edu.my
kadir@uthm.edu.my
akhairul@uthm.edu.my
aliyeon@unimap.edu.my
ammarzakaria@unimap.edu.my
fathinul@unimap.edu.my
afaizal@ump.edu.my
Keywords: Copper oxide
Optical emission spectroscopy
Reactive magnetron sputtering
Issue Date: 2014
Publisher: Trans Tech Publications
Citation: Advanced Materials Research, vol.832, 2014, pages 243-247
Abstract: Copper oxide is a low cost material, easy process fabrication and sensitivity to ambient conditions. Therefore, it is a suitable p-type semiconductor oxides material to be used as a gas sensing material. In order to raise the sensitivity of the copper oxide gas sensor, study on the correspondence in between the coated thin film with coating parameters is an important part. In current study, optical emission spectroscopy is used to investigate the reactive magnetron sputtering plasma during the deposition of copper oxide thin film. The measurement point was focused at roughly 2cm above the substrate holder. The emission of copper, oxygen and argon in the reactive magnetron sputtering were observed at various plasma conditions. In general, the emission of copper, oxygen and argon increased when the discharge rf power is increased. On the other hand, oxygen line intensity was found to be excess when the oxygen flow rate is above 8sccm. The result suggests the best condition to deposit the copper oxide thin film using solid 3 copper target.
Description: Link to publisher's homepage at http://www.ttp.net/
URI: http://dspace.unimap.edu.my:80/dspace/handle/123456789/33532
ISSN: 1662-8985
Appears in Collections:Ammar Zakaria, Associate Professor Dr.
Centre of Excellence for Advanced Sensor Technology (CEASTech) (Articles)
Ali Yeon Md Shakaff, Dato' Prof. Dr.



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