Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application

碩士 === 南榮技術學院 === 工程科技研究所碩士班 === 98 === This study is the investigation of the optical and electrical properties of hafnium dioxide (HfO2) using MIS structure prepared by RF sputtering system. The excellent electric and optical properties of hafnium dioxide are useful for photodetectors. The samples...

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Main Authors: Mien-Ho Lin, 林勉和
Other Authors: Chun-Hsing Liu,Ping-Chuan Chang
Format: Others
Language:zh-TW
Published: 2010
Online Access:http://ndltd.ncl.edu.tw/handle/92750363658725265432
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spelling ndltd-TW-098NJI070290032016-04-11T04:22:38Z http://ndltd.ncl.edu.tw/handle/92750363658725265432 Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application 以磁控濺鍍系統備製二氧化鉿MIS結構之研究及其應用 Mien-Ho Lin 林勉和 碩士 南榮技術學院 工程科技研究所碩士班 98 This study is the investigation of the optical and electrical properties of hafnium dioxide (HfO2) using MIS structure prepared by RF sputtering system. The excellent electric and optical properties of hafnium dioxide are useful for photodetectors. The samples used in this experiment were epitaxially grown by metal organic chemical vapor deposition system (MOCVD) on 2-inch c-face (0001) sapphire substrates. The use of InGaN thin film offers the possibility of shifting the detection edge from the UV to the VIS (and even the IR) by changing the indium composition in the InGaN layers. PDs in this study were designed to be sensitive in the blue wavelength range with 0.1 indium composition. In order to increase the barrier schottky height, we utilize RF sputtering system to grow a layer of HfO2 on the top of InGaN. This study can be divided into two parts. The first part of researches includes the optical and electric characteristics of hafnium dioxide material. Experimental results show that the hafnium dioxide thin film with the thickness of 40nm has the average transmittance of exceed 80% in the wavelength ranging from 380nm to 700nm. In the electrical characteristics, the dark current with the 5V applied bias was about 1.54×10-8A. The second part illustrates that the samples with the same thickness of 40nm were annealed by rapid thermal and furnace. Experimental results demonstrate that the hafnium dioxide thin film with the same thickness of 40nm and the annealing temperature of 700℃ has the average transmittance of exceed 80% in the wavelength ranging from 380nm to 700nm. A minimum dark current with 5V applied bias was 1.3×10-10A. According to the above results, the hafnium dioxide thin film using furnace annealing obtains lower dark current. Therefore, the hafnium dioxide MIS structure prepared by RF sputtering system and annealed by furnace can be applied in the fabrication of photodetectors. Keywords: HfO2, photodetector, rapid thermal annealing. Chun-Hsing Liu,Ping-Chuan Chang 劉醇星,張品全 2010 學位論文 ; thesis 48 zh-TW
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language zh-TW
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description 碩士 === 南榮技術學院 === 工程科技研究所碩士班 === 98 === This study is the investigation of the optical and electrical properties of hafnium dioxide (HfO2) using MIS structure prepared by RF sputtering system. The excellent electric and optical properties of hafnium dioxide are useful for photodetectors. The samples used in this experiment were epitaxially grown by metal organic chemical vapor deposition system (MOCVD) on 2-inch c-face (0001) sapphire substrates. The use of InGaN thin film offers the possibility of shifting the detection edge from the UV to the VIS (and even the IR) by changing the indium composition in the InGaN layers. PDs in this study were designed to be sensitive in the blue wavelength range with 0.1 indium composition. In order to increase the barrier schottky height, we utilize RF sputtering system to grow a layer of HfO2 on the top of InGaN. This study can be divided into two parts. The first part of researches includes the optical and electric characteristics of hafnium dioxide material. Experimental results show that the hafnium dioxide thin film with the thickness of 40nm has the average transmittance of exceed 80% in the wavelength ranging from 380nm to 700nm. In the electrical characteristics, the dark current with the 5V applied bias was about 1.54×10-8A. The second part illustrates that the samples with the same thickness of 40nm were annealed by rapid thermal and furnace. Experimental results demonstrate that the hafnium dioxide thin film with the same thickness of 40nm and the annealing temperature of 700℃ has the average transmittance of exceed 80% in the wavelength ranging from 380nm to 700nm. A minimum dark current with 5V applied bias was 1.3×10-10A. According to the above results, the hafnium dioxide thin film using furnace annealing obtains lower dark current. Therefore, the hafnium dioxide MIS structure prepared by RF sputtering system and annealed by furnace can be applied in the fabrication of photodetectors. Keywords: HfO2, photodetector, rapid thermal annealing.
author2 Chun-Hsing Liu,Ping-Chuan Chang
author_facet Chun-Hsing Liu,Ping-Chuan Chang
Mien-Ho Lin
林勉和
author Mien-Ho Lin
林勉和
spellingShingle Mien-Ho Lin
林勉和
Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
author_sort Mien-Ho Lin
title Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
title_short Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
title_full Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
title_fullStr Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
title_full_unstemmed Investigation of Hafnium Dioxide MIS Structure Prepared by RF Sputtering System and Its Application
title_sort investigation of hafnium dioxide mis structure prepared by rf sputtering system and its application
publishDate 2010
url http://ndltd.ncl.edu.tw/handle/92750363658725265432
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