Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique

Metal-organic decomposed (MOD) Ce(h precursor has been spin coated on n-type Si and n-type GaN substrates with thickness in the range of 45-90 nm. Prapenanda Ce02 yang disediakan dengan teknik penguraian organik logam telah diserakkan ke atas wafer Si dan GaN beljenis n dengan ketebalan dalam Iin...

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Main Author:	Quah, Hock Jin
Format:	Thesis
Language:	English
Published:	2010
Subjects:	TN1-997 Mining engineering. Metallurgy
Online Access:	http://eprints.usm.my/28916/ http://eprints.usm.my/28916/1/INVESTIGATION_OF_METAL_ORGANIC_DECOMPOSED_MOD_CERIUM_OXIDE.pdf

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author	Quah, Hock Jin
author_facet	Quah, Hock Jin
author_sort	Quah, Hock Jin
building	USM Institutional Repository
collection	Online Access
description	Metal-organic decomposed (MOD) Ce(h precursor has been spin coated on n-type Si and n-type GaN substrates with thickness in the range of 45-90 nm. Prapenanda Ce02 yang disediakan dengan teknik penguraian organik logam telah diserakkan ke atas wafer Si dan GaN beljenis n dengan ketebalan dalam Iinkungan 45-90 run.
first_indexed	2025-11-15T16:52:14Z
format	Thesis
id	usm-28916
institution	Universiti Sains Malaysia
institution_category	Local University
language	English
last_indexed	2025-11-15T16:52:14Z
publishDate	2010
recordtype	eprints
repository_type	Digital Repository
spelling	usm-289162017-05-15T08:05:02Z http://eprints.usm.my/28916/ Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique Quah, Hock Jin TN1-997 Mining engineering. Metallurgy Metal-organic decomposed (MOD) Ce(h precursor has been spin coated on n-type Si and n-type GaN substrates with thickness in the range of 45-90 nm. Prapenanda Ce02 yang disediakan dengan teknik penguraian organik logam telah diserakkan ke atas wafer Si dan GaN beljenis n dengan ketebalan dalam Iinkungan 45-90 run. 2010 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/28916/1/INVESTIGATION_OF_METAL_ORGANIC_DECOMPOSED_MOD_CERIUM_OXIDE.pdf Quah, Hock Jin (2010) Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique. Masters thesis, Universiti Sains Malaysia.
spellingShingle	TN1-997 Mining engineering. Metallurgy Quah, Hock Jin Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title	Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title_full	Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title_fullStr	Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title_full_unstemmed	Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title_short	Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique
title_sort	investigation of metal-organic decomposed (mod) cerium oxide (ceo2) gate deposited on silicon and gallium nitride substrates via spin-on coating technique
topic	TN1-997 Mining engineering. Metallurgy
url	http://eprints.usm.my/28916/ http://eprints.usm.my/28916/1/INVESTIGATION_OF_METAL_ORGANIC_DECOMPOSED_MOD_CERIUM_OXIDE.pdf

Investigation Of Metal-Organic Decomposed (MOD) Cerium Oxide (Ceo2) Gate Deposited On Silicon And Gallium Nitride Substrates Via Spin-On Coating Technique

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