分子玻璃光致抗蚀剂研究进展

Study on Molecular Glass Photoresists

下载PDF

导出

摘要随着半导体芯片集成度的快速提高,光刻技术的分辨率正由90、65和45 nm迈向更先进的32 nm或以下.而分子玻璃体抗蚀剂可能是下一代光刻技术的最好选择.本文阐述了分子玻璃光致抗蚀剂的设计思想,并介绍了几种性能良好的分子玻璃光致抗蚀剂. As the semiconductor chip compositive rise quickly,lithography resolution is from 90 nm,65 nm and 45 nm towards more advanced 32 nm. While molecular glass photoresists may be the best choice of next generation lithography technology. The conception of molecular glass photoresist design is expounded, and several good performance of molecular glass photoresists are introduced

作者徐娜刘玉芹王金玲胡勇孟磊

机构地区吉林化工学院研究生处吉林化工学院材料科学与工程研究中心中国石油吉林石化公司乙烯厂吉林市龙潭区第二实验幼儿园中山市福瑞特科技产业有限公司

出处《吉林化工学院学报》 CAS 2012年第9期12-16,共5页 Journal of Jilin Institute of Chemical Technology

关键词光致抗蚀剂分子玻璃体结构 photoresists molecular glass structure

分类号 TN304 [电子电信—物理电子学]

引文网络
相关文献

参考文献16

1W. Wedler, D. Demus, H. Zaschke, et al. Vitrification in low-molecular-weight mesogenic compounds [ J ]. J. Mater. Chem. ,1991 ( 1 ) :347-356.
2M. Yoshiiwa, H. Kageyama, Y. Shirota, et al. Novel class of low molecular - weight organic resists for nanometer lithography [ J ]. Appl. Phys. Lett. 1996, 69(17) :2605-2607.
3T. Kadota,H. Kageyama, F. Wakaya, et al. Novel electron- beam molecular resists with high resolution and high sensitivity for nanometer lithography [ J ]. Chem. Lett. 2004,33 (6) : 706 -707.
4A. D. Silva, C. K. Ober,. Hydroxyphenylbenzene derivatives as glass forming rvokxxdes for high resolution photc~esists [J ]. J. Mater. Chem. 2008,18 (16) : 1903-1910.
5A. De Silva, J. K. Lee, X. Andre, et al. Study of the Structure. Properties Relationship of Phenolic Molecular Glass Resists for Next Generation Photolithography[ Jl. Chem. Mater. 2008,20(4) :1606-1613.
6T. Hirayama, D. Shiono, H. Hada, et al. New Photoresist Based on Amorphous Low Molecular Weight Polyphenols[ J ].Sei. Teehnol. 2004,17(3) :435-440.
7J. Dai, S. W. Chang, A. Hamad, et al. Molecular Glass Resists for High-Resolution Patterning [ J ]. Chem. Mater. ,2006,18 (15) :3404-3411.
8K. Young-Gil, J. B. Kim, T. Fujigaya, et al. A positive-working alkaline developable photoresist based on partially tert-Boc-protected calix [ 4 ] resorcinarene and a photoacid generator[ J]. J. Mater. Chem. ,2002, 12(1) :53-57.
9D. Takahashi, T. Nakayama, O. Haba, et al. Three- Component Negative-Type Photoresist Based on Calix [d ] resorcinarene, a Cross-linker, and a Photoacid Generator [ J]. Chem. Mater., 1998, 10 (8): 2230-2234.
10D. Yang, S. W. Chang, C. K. Ober, Molecular glass photoresists for advanced lithography [ J ]. J. Mater. Chem. ,2006,16(18) : 1693-1696.

1瑞萨科技发布无铅玻璃封装二极管[J].中国电子商情,2006(7):86-86.
2凯瑟琳.波尔扎克,肖恩.麦科密克.制造光的工厂[J].科技创业,2011(1):68-75.
3吴嵬,王轲（审核）.光胶工艺[J].导航与控制,2005,12(4):13-13.
4许林长,王昆林,杨承相.高温下玻璃体导电实验研究[J].电子世界,2014(20):433-434.
5许箭,陈力,田凯军,胡睿,李沙瑜,王双青,杨国强.先进光刻胶材料的研究进展[J].影像科学与光化学,2011,29(6):417-429. 被引量：25
6高武,刘家磊,薄淑晖,刘新厚,甄珍.可用于电光材料的新型非线性光学活性的玻璃分子(英文)[J].发光学报,2011,32(9):858-863.
7燕斌,苑伟政,虞益挺,乔大勇,孙瑞康,李太平.一种新型SOG周期可调光栅的制作及其衍射性能测试[J].光学学报,2010,30(11):3128-3132. 被引量：5
8折叠式人工玻璃体临床试用和生产[J].中国科技成果,2013(21):32-32. 被引量：1
9赵雅琴,蔡小海,韩万书,陆坤权.EXAFS对As-Ge-Te三元体系玻璃体结构研究[J].物理化学学报,1995,11(9):851-853.
10谢菡.白光LED用荧光粉相关专利简介[J].中国照明电器,2011(10):21-22.

吉林化工学院学报

2012年第9期

浏览历史

内容加载中请稍等...

分子玻璃光致抗蚀剂研究进展

参考文献16

相关作者

相关机构

相关主题

浏览历史