摘要
无限多样、纷繁复杂、干变万化的物质世界有多种形态存在,有固态、液态、气态还有超固态和离子态等。半导体材料的发现可以追溯到19世纪,随着双极性晶体管的引入,半导体时代于20世纪中期展开。
出处
《新材料产业》
2017年第8期69-72,共4页
Advanced Materials Industry
二级参考文献17
-
1POWELL A R,ROWLAND L B. SiC materials-progress,status,and potential roadblocks[J].Proceedings of the IEEE,2002,(06):942-955.doi:10.1109/JPROC.2002.1021560.
-
2ALVI N H,RIAZ M,TZAMALIS G,NUR O WILLANDER M. Fabrication and characterization of high-brightness light emitting diodes based on n-ZnO nanorods grown by a low-temperature chemical method on p-4H-SiC and p-GaN[J].Semiconductor Science and Technology,2010,(06):065004.
-
3LEE K S,LEE S H,NAHM K S,KIM K C KIM M. Effect of substrate surface state on the crystal quality of homoepitaxially grown 6H-SiC epilayers[J].Journal of the Korean Physical Society,2004,(04):946-949.
-
4CHEN X F,XU X G,HU X B,LI J JIANG S Z NING L N WANG Y M JIANG M H. Anisotropy of chemical mechanical polishing in silicon carbide substrates[J].Materials Science and Engineering B,2007,(01):28-30.
-
5KATO T,WADA K,HOZOMI E,TANIGUCHI H MIURA T NISHIZAWA S ARAI K. High throughput SiC wafer polishing with good surface morphology[J].Materials Science Forum,2007,(0):753-756.doi:10.4028/www.scientific.net/MSF.556-557.753.
-
6CHEN X F,LI J,MAD Y,HU X XU X G JIANG M H. Fine Machining of large-diameter 6H-SiC wafers[J].Journal of Materials Science and Technology,2006,(05):681-684.doi:10.3321/j.issn:1005-0302.2006.05.022.
-
7CHEN X F,XU X G,LI J,JIANG S Z NING L N WANG Y M MAD Y HU X B JIANG M H. Surface polishing of 6H-SiC substrates[J].Journal of Materials Science and Technology,2007,(03):430-432.doi:10.3321/j.issn:1005-0302.2007.03.029.
-
8YAGI K,MURATA J,KUBOTA A,SANO Y HARA H ARIMA K OKAMOTO T MIMURA H YAMAUCHI K. Defect-free planarization of 4H-SiC(0001)substrate using reference plate[J].Japanese Journal of Applied Physics,2008,(01):104-107.
-
9LEE H,PARK B,JEONG S,JOO S JEONG H. The effect of mixed abrasive slurry on CMP of 6H-SiC substrates[J].Journal of Ceramic Processing Research,2009,(03):378-381.
-
10GRIM J R,BENAMARA M,SKOWRONSKI M,EVERSON W J,HEYDEMANN V D. Transmission electron microscopy analysis of mechanical polishing-related damage in silicon carbide wafers[J].Semiconductor Science and Technology,2006,(12):1709-1713.doi:10.1088/0268-1242/21/12/035.
共引文献58
-
1周孝信,陈树勇,鲁宗相.电网和电网技术发展的回顾与展望——试论三代电网[J].中国电机工程学报,2013,33(22):1-11. 被引量:249
-
2王学梅.宽禁带碳化硅功率器件在电动汽车中的研究与应用[J].中国电机工程学报,2014,34(3):371-379. 被引量:116
-
3徐国林,赵志斌.功率半导体器件与高压直流输电技术[J].中国科技博览,2014(17):241-241.
-
4刘宝龙,查亚兵.未来能量互联的关键设备——固态变压器[J].国防科技,2014,35(3):10-13. 被引量:5
-
5鲁毅,柳洪超,郭国建,吴立军,尤瑜生.高频感应燃烧红外吸收法测定碳化硅中硫含量[J].化学分析计量,2014,23(5):44-45. 被引量:1
-
6吴剑,石健将,张至愚.三相模块级联型固态变压器均压/均功率控制策略研究[J].电源学报,2015,13(2):17-26. 被引量:8
-
7钟志远,秦海鸿,朱梓悦,袁源,余忠磊.碳化硅MOSFET器件特性的研究[J].电气自动化,2015,37(3):44-45. 被引量:3
-
8戴美胜,谢毅思,朱林,龙霏.电力调度命名管理软件的设计与实现[J].电气自动化,2015,37(3):64-67. 被引量:1
-
9谢昊天,秦海鸿,聂新,朱梓悦,马策宇.SiC基和Si基永磁同步电动机驱动器的比较[J].上海电机学院学报,2015,18(3):128-135. 被引量:1
-
10何骏伟,陈思哲,任娜,柏松,陶永洪,刘奥,盛况.4500V碳化硅SBD和JFET功率模块的制备与测试[J].电工技术学报,2015,30(17):63-69. 被引量:8
二级引证文献3
-
1刘翠翠,郭刚,李治明,张付强,陈启明,韩金华,杨新宇.SiC MOSFET单粒子效应研究现状[J].核技术,2022,45(1):1-14. 被引量:11
-
2任云鹏,涂新诚,何坤,程力,叶云霞,任旭东,任乃飞.碳化硅晶圆超快激光多脉冲模式和脉冲串模式隐形切割技术研究[J].中国激光,2023,50(20):202-213. 被引量:1
-
3方莉俐,刘韩,姜羽飞,段雪纯.线锯用金刚石微粉表面化学镀镍工艺及性能研究[J].工具技术,2024,58(4):54-58.
