Application of halide vapor phase epitaxy for the growth of ultrawide band gap Ga_2O_3 被引量：7

Application of halide vapor phase epitaxy for the growth of ultrawide band gap Ga_2O_3

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摘要 Halide vapor phase epitaxy(HVPE) is widely used in the semiconductor industry for the growth of Si, GaAs, GaN, etc.HVPE is a non-organic chemical vapor deposition(CVD) technique, characterized by high quality growth of epitaxial layers with fast growth rate, which is versatile for the fabrication of both substrates and devices with wide applications. In this paper, we review the usage of HVPE for the growth and device applications of Ga_2O_3, with detailed discussions on a variety of technological aspects of HVPE. It is concluded that HVPE is a promising candidate for the epitaxy of large-area Ga_2O_3 substrates and for the fabrication of high power β-Ga_2O_3 devices. Halide vapor phase epitaxy(HVPE) is widely used in the semiconductor industry for the growth of Si, GaAs, GaN, etc.HVPE is a non-organic chemical vapor deposition(CVD) technique, characterized by high quality growth of epitaxial layers with fast growth rate, which is versatile for the fabrication of both substrates and devices with wide applications. In this paper, we review the usage of HVPE for the growth and device applications of Ga_2O_3, with detailed discussions on a variety of technological aspects of HVPE. It is concluded that HVPE is a promising candidate for the epitaxy of large-area Ga_2O_3 substrates and for the fabrication of high power β-Ga_2O_3 devices.

作者 Xiangqian Xiu Liying Zhang Yuewen Li Zening Xiong Rong Zhang Youdou Zheng

机构地区 Key Laboratory of Advanced Photonic and Electronic Materials

出处《Journal of Semiconductors》 EI CAS CSCD 2019年第1期57-62,共6页 半导体学报（英文版）

基金 supported by the National Key R&D Program of China(No.2017YFB0404201) the Solid State Lighting and Energy-Saving Electronics Collaborative Innovation Center,PAPD,and the State Grid Shandong Electric Power Company

关键词 HALIDE vapor phase EPITAXY GA2O3 SCHOTTKY barrier DIODES EPITAXY GROWTH halide vapor phase epitaxy Ga_2O_3 Schottky barrier diodes epitaxy growth

分类号 TN [电子电信]

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参考文献1

1谢自力,张荣,夏长泰,修向前,韩平,刘斌,赵红,江若琏,施毅,郑有炓.Demonstration of GaN/InGaN Light Emitting Diodes on （100） β-Ga2O3 Substrates by Metalorganic Chemical Vapour Deposition[J].Chinese Physics Letters,2008,25(6):2185-2189. 被引量：1

二级参考文献12

1Rohde C, Choi B J, Jeong D S, Choi S, Zhao J S, and Hwang C S 2005 Appl. Phys. Lett. 86 262907 被引量：1
2Choi B J, Choi S, Kim K M et al 2006 Appl. Phys. Lett. 89 012906 被引量：1
3Rossel C, Meijer G I, Bremaud D and Widmer D 2001 J. Appl. Phys. 90 2892 被引量：1
4Baek I G, Lee M S, Seo S, Lee M J, Seo D H, Suh D S, Park J C, Park S O, Kim H S, Yoo I K, Chung U I and Moon J T 2004 Tech. Dig. Int. Electron Device Meet. 2004 587 被引量：1
5Hiatt W R and Hickmott T W 1965 Appl. Phys. Lett, 6 106 被引量：1
6Lee D, Choi H, Sire H, Choi D, Hwang H, Lee M J, Seo S A and Yoo I K 2005 IEEE Electron. Device Lett. 26 719 被引量：1
7Wu X, Zhou P, Li J, Chen L Y, Lv H B, Lin Y Y and Tang T A 2007 Appl. Phys. Lett. 90 183507 被引量：1
8Guan W H, Long S B, Jia R and Liu M 2007 Appl. Phys. Lett. 91 062111 被引量：1
9Fujimoto M, Koyama H, Konagai M, Hosoi Y, Ishihara K, Ohnishi S and Awaya N 2006 Appl. Phys. Lett. 89 223509 被引量：1
10Seo S, Lee M J, Seo D H, Jeoung E J, Suh D-S, Joung Y S, Yoo I K, Hwang I R, Kim S H, Byun I S, Kim J-S, Choi J S and Park B H 2004 Appl. Phys. Lett. 85 5655 被引量：1

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1赵丽伟,滕晓云,郝秋艳,朱军山,张帷,刘彩池.金属有机化学气相沉积生长的GaN膜中V缺陷研究[J].液晶与显示,2006,21(1):38-42. 被引量：1
2刘兴悦,戴佳鑫.薄膜均匀性的研究分析[J].科技创新导报,2010,7(9):2-3. 被引量：4
3王伟,褚夫同,岳超,刘兴钊.β-Ga_2O_3薄膜的分子束外延生长及其紫外光敏特性研究[J].电子元件与材料,2013,32(5):17-19. 被引量：6
4Tsung-Han Yang,Houqiang Fu,Hong Chen,Xuanqi Huang,Jossue Montes,Izak Baranowski,Kai Fu,Yuji Zhao.Temperature-dependent electrical properties of β-Ga_2O_3Schottky barrier diodes on highly doped single-crystal substrates[J].Journal of Semiconductors,2019,40(1):63-69. 被引量：2
5Jiaqi Wei,Kumsong Kim,Fang Liu,Ping Wang,Xiantong Zheng,Zhaoying Chen,Ding Wang,Ali Imran,Xin Rong,Xuelin Yang,Fujun Xu,Jing Yang,Bo Shen,Xinqiang Wang.β-Ga_2O_3 thin film grown on sapphire substrate by plasmaassisted molecular beam epitaxy[J].Journal of Semiconductors,2019,40(1):71-75. 被引量：5
6Tongchuan Ma,Xuanhu Chen,Fangfang Ren,Shunming Zhu,Shulin Gu,Rong Zhang,Youdou Zheng,Jiandong Ye.Heteroepitaxial growth of thick α-Ga_2O_3 film on sapphire(0001)by MIST-CVD technique[J].Journal of Semiconductors,2019,40(1):81-85. 被引量：3
7Hui Hao,Xiao Chen,Zhengcheng Li,Yang Shen,Hu Wang,Yanfei Zhao,Rong Huang,Tong Liu,Jian Liang,Yuxin An,Qing Peng,Sunan Ding.Remote plasma-enhanced atomic layer deposition of gallium oxide thin films with NH_3 plasma pretreatment[J].Journal of Semiconductors,2019,40(1):91-97. 被引量：1
8马征征,董鑫,庄仕伟,许恒,胡大强.退火对Ga_2O_3薄膜特性的影响[J].发光学报,2017,38(5):606-610. 被引量：11
9唐慧丽,何诺天,罗平,郭超,李秋,吴锋,王庆国,潘星宇,刘波,徐军.超宽禁带半导体β-Ga2O3单晶生长突破2英寸[J].人工晶体学报,2017,46(12):2533-2534. 被引量：8
10孙学耕,张智群.Ga2O3功率器件研究现状和发展趋势[J].半导体技术,2018,43(4):241-249. 被引量：8

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1李赜明,余烨,焦腾,胡大强,董鑫,李万程,张源涛,吕元杰,冯志红,张宝林.两步氧化法制备β-Ga2O3薄膜[J].发光学报,2019,40(10):1247-1253. 被引量：4
2Nasir Alfaraj,Jung-Wook Min,Chun Hong Kang,Abdullah A.Alatawi,Davide Priante,Ram Chandra Subedi,Malleswararao Tangi,Tien Khee Ng,Boon S.Ooi.Deep-ultraviolet integrated photonic and optoelectronic devices:A prospect of the hybridization of group Ⅲ–nitrides, Ⅲ–oxides,and two-dimensional materials[J].Journal of Semiconductors,2019,40(12):11-58. 被引量：3
3刘庆东,陈琳,陶志阔,修向前.双反应源气体HVPE生长α-Ga_(2)O_(3)的仿真优化研究[J].半导体光电,2021,42(2):252-258. 被引量：1
4王江,罗林保.基于氧化镓日盲紫外光电探测器的研究进展[J].中国激光,2021,48(11):1-31. 被引量：27
5汪正鹏,张崇德,孙新雨,胡天澄,崔梅,张贻俊,巩贺贺,任芳芳,顾书林,张荣,叶建东.切割角蓝宝石基氧化镓薄膜MOCVD外延及日盲紫外光电探测器制备[J].人工晶体学报,2023,52(6):1007-1015.
6Aleksei Almaev,Alexander Tsymbalov,Bogdan Kushnarev,Vladimir Nikolaev,Alexei Pechnikov,Mikhail Scheglov,Andrei Chikiryaka,Petr Korusenko.High-speed performance self-powered short wave ultraviolet radiation detectors based onκ(ε)-Ga_(2)O_(3)[J].Journal of Semiconductors,2024,45(4):56-62. 被引量：1
7Aleksei Almaev,Alexander Tsymbalov,Bogdan Kushnarev,Vladimir Nikolaev,Alexei Pechnikov,Mikhail Scheglov,Andrei Chikiryaka.Self-powered UVC detectors based on α-Ga_(2)O_(3) with enchanted speed performance[J].Journal of Semiconductors,2024,45(8):74-80.

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1焦腾,李赜明,王谦,董鑫,张源涛,柏松,张宝林,杜国同.Ga2O3/GaN/蓝宝石模板上β-Ga2O3薄膜的生长[J].发光学报,2020,41(3):281-287. 被引量：2
2尤洪禹,张如林,李荣斌,张静,金敏,王相虎.无催化β-Ga_(2)O_(3)纳米棒的可控制备[J].功能材料,2021,52(3):3177-3181. 被引量：1
3牛慧丹,孔苏苏,杨少延,刘祥林,魏鸿源,姚威振,李辉杰,陈庆庆,汪连山,王占国.温度对氮化铝表面形貌的调控及演化机理[J].发光学报,2021,42(11):1739-1747. 被引量：1
4胡万彪,张婉,顾成鼎.二硫化钼光电探测器的研究进展[J].激光与光电子学进展,2021,58(19):67-77. 被引量：4
5罗建仁,王相虎,樊天曜,金嘉妮,张如林.SiC衬底上β-Ga_(2)O_(3)薄膜生长及p-SiC/n-β-Ga_(2)O_(3)异质结光伏特性[J].人工晶体学报,2021,50(12):2219-2224.
6刘纪博,庞国旺,马磊,刘丽芝,王晓东,史蕾倩,潘多桥,刘晨曦,张丽丽,雷博程,赵旭才,黄以能.GGA+U方法研究C与Ti掺杂GaN的电子结构和光学性质[J].人工晶体学报,2022,51(1):77-84. 被引量：1
7冉景杨,高灿灿,马奎,杨发顺.磁控溅射功率对β-Ga_(2)O_(3)薄膜特性的影响[J].原子与分子物理学报,2022,39(4):90-94. 被引量：1
8李佳伟,陈洪耀,张黎明,黄文薪,司孝龙.基于日盲型滤光片辐射计的232~400nm波段辐射标准传递研究[J].光学学报,2022,42(10):53-63. 被引量：3
9王尘,张宇超,范伟航,李世韦,张小英,林海军,连水养,朱文章.氧气退火温度对室温脉冲激光沉积氧化镓薄膜特性的影响[J].光学学报,2022,42(8):255-262. 被引量：2
10赵航,李志超,李欣,刘耀远,龚韬,郭亮,李三伟,蒋小华,李琦,潘凯强,陈朝鑫,杨冬,丁永坤,王峰.基于神光100kJ装置的五倍频汤姆孙散射评估[J].光学学报,2022,42(11):181-191. 被引量：1

1Shasha Zhou,Lin Gan,Deli Wang,Huiqiao Li,Tianyou Zhai.Space-confined vapor deposition synthesis of two dimensional materials[J].Nano Research,2018,11(6):2909-2931. 被引量：9
2高玉竹,赵子瑞,龚秀英,魏小梅,冯彦斌,司俊杰.近室温工作的中长波InAsSb探测器[J].光电子．激光,2018,29(12):1266-1269. 被引量：3
3Tsung-Han Yang,Houqiang Fu,Hong Chen,Xuanqi Huang,Jossue Montes,Izak Baranowski,Kai Fu,Yuji Zhao.Temperature-dependent electrical properties of β-Ga_2O_3Schottky barrier diodes on highly doped single-crystal substrates[J].Journal of Semiconductors,2019,40(1):63-69. 被引量：2
4Fu-Hui Shao,Yi Zhang,Xiang-Bin Su,Sheng-Wen Xie,Jin-Ming Shang,Yun-Hao Zhao,Chen-Yuan Cai,Ren-Chao Che,Ying-Qiang Xu,Hai-Qiao Ni,Zhi-Chuan Niu.1.3-μm InAs/GaAs quantum dots grown on Si substrates[J].Chinese Physics B,2018,27(12):526-531.
5Jinye ZHOU,Zhaoyang BU,Xueqiang CUI,Zibin ZHANG.Innovation and Prospects of Development of Flower Industry——A Case Study of Guangxi[J].Asian Agricultural Research,2019,11(1):14-19. 被引量：1
6Zhibin Shao,Zongyuan Zhang,Hui Yuan,Haigen Sun,Yan Cao,Xin Zhang,Shaojian Li,Habakubaho Gedeon,Tao Xiang,Qi-Kun Xue,Minghu Pan.Scanning tunneling microscopic observation of enhanced superconductivity in epitaxial Sn islands grown on SrTiO3 substrate[J].Science Bulletin,2018,63(20):1332-1337.
7卢建夺,赵猛,赵飞翔,熊祖钊.肖特基金属条对磁纳米结构中Goos-Hanchen移动的影响[J].武汉大学学报（理学版）,2019,65(1):99-104.
8Contributions to Baosteel Technical Research wanted[J].Baosteel Technical Research,2018,12(4):50-50.
9Tongchuan Ma,Xuanhu Chen,Fangfang Ren,Shunming Zhu,Shulin Gu,Rong Zhang,Youdou Zheng,Jiandong Ye.Heteroepitaxial growth of thick α-Ga_2O_3 film on sapphire(0001)by MIST-CVD technique[J].Journal of Semiconductors,2019,40(1):81-85. 被引量：3
10苏文辉,王东.基于“互联网+”的云教研实现资源共享,促进两地教师共同成长[J].师道（教研）,2019,0(2):112-112.

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