Novel single-layer photoresist containing cycloolefins for 193 nm

被引:5
|
作者
Park, JH [1 ]
Seo, DC [1 ]
Kim, KD [1 ]
Park, SY [1 ]
Kim, SJ [1 ]
Lee, W [1 ]
Jung, JC [1 ]
Bok, CK [1 ]
Baik, KH [1 ]
机构
[1] Korea Kumho Petrochem Co Ltd, Kumho Chem Labs, Yuseong Gu, Taejon, South Korea
来源
ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XV, PTS 1 AND 2 | 1998年 / 3333卷
关键词
193 nm lithography; maleic anhydride; cycloolefin; photoresist; etch resistance;
D O I
10.1117/12.312449
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
New matrix resins containing maleic anhydride and cycloolefin units for ArF excimer laser resist have been developed. Several series of these matrix resins having good dry-etching durability were prepared by Free radical polymerization using AIBN as free radical initiator. All of the resists using the matrix resins revealed good coating uniformity and adhesion to silicon wafer, and were readily soluble in a variety of resist solvents such as MMP, EEP, PGMEA and EL. In preliminary 193 nm testing a resist formulated with the matrix resins sulfonium triflate as photoacid generator afforded positive images with 0.14 um L/S resolution. In this paper, we will discuss the polymerization results and lithographic properties for 193 nm exposure tool.
引用
收藏
页码:454 / 462
页数:5
相关论文
共 50 条
  • [31] New single layer positive photoresists for 193 nm photolithography
    Okoroanyanwu, U
    Shimokawa, T
    Byers, J
    Medeiros, D
    Willson, CG
    Niu, QSJ
    Frechet, JMJ
    Allen, R
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XIV, 1997, 3049 : 92 - 103
  • [32] Evaluation of 193 nm Photoresist Material at Advanced Immersion Nodes
    Hao, Jing-an
    Xu, Yao
    Liu, Chang
    Wu, Qiang
    Shi, Xuelong
    Gu, Yiming
    CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE 2011 (CSTIC 2011), 2011, 34 (01): : 263 - 267
  • [33] 193nm contact photoresist reflow feasibility study
    Lucas, K
    Slezak, M
    Ercken, M
    Van Roey, F
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XVIII, PTS 1 AND 2, 2001, 4345 : 725 - 736
  • [34] Negative-tone cycloolefin photoresist for 193 nm lithography
    Fu, SC
    Hsieh, KH
    Wang, LA
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XVIII, PTS 1 AND 2, 2001, 4345 : 751 - 760
  • [35] Ar+ bombardment of 193 nm photoresist:: Morphological effects
    Pargon, E.
    Nest, D.
    Graves, D. B.
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 2007, 25 (04): : 1236 - 1243
  • [36] Characterization of Modification of 193-nm Photoresist by HBr Plasma
    Vereecke, G.
    Claes, M.
    Le, Q. T.
    Kesters, E.
    Struyf, H.
    Carleer, R.
    Adriaensens, P.
    ELECTROCHEMICAL AND SOLID STATE LETTERS, 2011, 14 (10) : H408 - H410
  • [37] New polymer for 157nm single-layer resist based on fluorine containing acryl copolymer
    Ogata, T
    Endo, K
    Komano, H
    Nakayama, T
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XVIII, PTS 1 AND 2, 2001, 4345 : 1048 - 1055
  • [38] 193 nm single layer resist strategies, concepts, and recent results
    Nalamasu, O
    Houlihan, FM
    Cirelli, RA
    Timko, AG
    Watson, GP
    Hutton, RS
    Kometani, JM
    Reichmanis, E
    Gabor, A
    Medina, A
    Slater, S
    JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B, 1998, 16 (06): : 3716 - 3721
  • [39] Approach of various polymers to 157 nm single-layer resists
    Kishimura, S
    Sasago, M
    Shirai, M
    Tsunooka, M
    MICROPROCESSES AND NANOTECHNOLOGY 2000, DIGEST OF PAPERS, 2000, : 104 - 105
  • [40] Fluorocarbon based single-layer resist for 157 nm lithography
    Song, KY
    Yoon, KS
    Choi, SJ
    Woo, SG
    Han, WS
    Lee, JJ
    Lee, SK
    Noh, CH
    Honda, K
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XIX, PTS 1 AND 2, 2002, 4690 : 504 - 511
12345