Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres

Silicon-based nanostructures were successfully synthesized from two different routes of chemical vapour growth (CVG) on silicon wafers and pyrolysis of oil palm fibres. In CVG, SiC nanorods, SiC nanocolumns as well as SiC/SiO2 core-shell nanowires, nanocables and nanowebs were produced by heating on...

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Auteur principal: Chiew , Yi Ling
Format: Thèse
Langue:anglais
Publié: 2012
Sujets:
QA1 Mathematics (General)
Accès en ligne:http://eprints.usm.my/41724/
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author Chiew , Yi Ling
author_facet Chiew , Yi Ling
author_sort Chiew , Yi Ling
description Silicon-based nanostructures were successfully synthesized from two different routes of chemical vapour growth (CVG) on silicon wafers and pyrolysis of oil palm fibres. In CVG, SiC nanorods, SiC nanocolumns as well as SiC/SiO2 core-shell nanowires, nanocables and nanowebs were produced by heating only Si wafers and activated carbon powder (ACP) under vacuum/argon at 1300°C. The oxidation time, soaking time and amount of ACP influenced the morphologies of nanostructures. SiC nanorods and nanocolumns were formed at soaking time of 1 hour, with increasing diameter and yield when oxidation time was raised from 1 to 12 minutes.
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spelling usm-417242019-04-12T05:26:20Z http://eprints.usm.my/41724/ Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres Chiew , Yi Ling QA1 Mathematics (General) Silicon-based nanostructures were successfully synthesized from two different routes of chemical vapour growth (CVG) on silicon wafers and pyrolysis of oil palm fibres. In CVG, SiC nanorods, SiC nanocolumns as well as SiC/SiO2 core-shell nanowires, nanocables and nanowebs were produced by heating only Si wafers and activated carbon powder (ACP) under vacuum/argon at 1300°C. The oxidation time, soaking time and amount of ACP influenced the morphologies of nanostructures. SiC nanorods and nanocolumns were formed at soaking time of 1 hour, with increasing diameter and yield when oxidation time was raised from 1 to 12 minutes. 2012-05 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/41724/1/CHIEW_YI_LING.pdf Chiew , Yi Ling (2012) Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres. Masters thesis, Universiti Sains Malaysia.
spellingShingle QA1 Mathematics (General)
Chiew , Yi Ling
Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title_full Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title_fullStr Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title_full_unstemmed Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title_short Synthesis Of Silicon-Based Nanostructures By Chemical Vapour Growth On Silicon Wafer And From Pyrolysis Of Oil Palm Fibres
title_sort synthesis of silicon based nanostructures by chemical vapour growth on silicon wafer and from pyrolysis of oil palm fibres
topic QA1 Mathematics (General)
url http://eprints.usm.my/41724/
work_keys_str_mv AT chiewyiling synthesisofsiliconbasednanostructuresbychemicalvapourgrowthonsiliconwaferandfrompyrolysisofoilpalmfibres

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