Oligomers of MORE: Molecular Organometallic Resists for EUV

被引:3
|
作者
Hasan, Shaheen [1 ]
Murphy, Michael [1 ]
Weires, Maximilian [1 ]
Grzeskowiak, Steven [1 ]
Denbeaux, Greg [1 ]
Brainard, Robert L. [1 ]
机构
[1] State Univ New York Polytech Inst, CNSE, 257 Fuller Rd, Albany, NY 12203 USA
来源
ADVANCES IN PATTERNING MATERIALS AND PROCESSES XXXVI | 2019年 / 10960卷
关键词
D O I
10.1117/12.2516010
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
The EUV photoproducts of antimony carboxylate photoresists [R3Sb(O2CR')(2)] are used to evaluate a possible free radical exposure mechanism by studying the change in molecular weight distribution with dose. We demonstrate the redistribution of carboxylate ligands across the metal centers in solution and use this property to create a statistical mono-olefin resist system with blended solutions of olefinic and non-olefinic antimony compounds that limit crosslinking and improve solubility of the photoproducts. Through gel permeation chromatography (GPC) analysis, we demonstrate the formation of high molecular weight oligomers with exposure dose and provide further support for the free-radical polymerization mechanism.
引用
收藏
页数:9
相关论文
共 50 条
  • [1] Molecular Organometallic Resists for EUV (MORE): Reactivity as a Function of Metal Center (Bi, Sb and Te)
    Sitterly, Jacob
    Murphy, Michael
    Grzeskowiak, Steven
    Denbeaux, Greg
    Brainard, Robert L.
    ADVANCES IN PATTERNING MATERIALS AND PROCESSES XXXV, 2018, 10586
  • [2] High-Sensitivity Molecular Organometallic Resist for EUV (MORE)
    Passarelli, James
    Murphy, Michael
    Del Re, Ryan
    Sortland, Miriam
    Dousharm, Levi
    Vockenhuber, Michaela
    Ekinci, Yasin
    Neisser, Mark
    Freedman, Daniel A.
    Brainard, Robert L.
    ADVANCES IN PATTERNING MATERIALS AND PROCESSES XXXII, 2015, 9425
  • [3] EUV Resists Comprised of Main Group Organometallic Oligomeric Materials
    Passarelli, James
    Cardineau, Brian
    Del Re, Ryan
    Sortland, Miriam
    Vockenhuber, Michaela
    Ekinci, Yasin
    Sarma, Chandra
    Neisser, Mark
    Freedman, Daniel A.
    Brainard, Robert L.
    ADVANCES IN PATTERNING MATERIALS AND PROCESSES XXXI, 2014, 9051
  • [4] Molecular glass resists for EUV lithography
    De Silva, Anuja
    Forman, Drew
    Ober, Christopher K.
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XXIII, PTS 1 AND 2, 2006, 6153 : U1505 - U1514
  • [5] Molecular challenges of immersion and extreme ultraviolet (EUV) resists
    Dean, Kim R.
    Stark, David
    JOURNAL OF PHOTOPOLYMER SCIENCE AND TECHNOLOGY, 2006, 19 (04) : 487 - 499
  • [6] Performance of EUV molecular resists based on fullerene derivatives
    Oizumi, Hiroaki
    Matsunaga, Kentaro
    Kaneyama, Koji
    Santillan, Julius Joseph
    Shiraishi, Gousuke
    Itani, Toshiro
    ADVANCES IN RESIST MATERIALS AND PROCESSING TECHNOLOGY XXVIII, 2011, 7972
  • [7] Development of EUV resists at Selete
    Oizumi, Hiroaki
    Kawamura, Daisuke
    Kaneyama, Koji
    Kobayashi, Shinji
    Itani, Toshiro
    ADVANCES IN RESIST MATERIALS AND PROCESSING TECHNOLOGY XXVI, 2009, 7273
  • [8] Reaction mechanism of EUV resists
    Toriumi, Minoru
    Kaneyama, Koji
    Itani, Toshiro
    MICROPROCESSES AND NANOTECHNOLOGY 2007, DIGEST OF PAPERS, 2007, : 16 - 17
  • [9] Bismuth Resists for EUV Lithography
    Passarelli, James
    Sortland, Miriam
    Del Re, Ryan
    Cardineau, Brian
    Sarma, Chandra
    Freedman, Daniel A.
    Brainard, Robert L.
    JOURNAL OF PHOTOPOLYMER SCIENCE AND TECHNOLOGY, 2014, 27 (05) : 655 - 661
  • [10] Organoelement resists for EUV lithography
    Dai, JY
    Ober, CK
    Wang, L
    Cerrina, F
    Nealey, P
    ADVANCES IN RESIST TECHNOLOGY AND PROCESSING XIX, PTS 1 AND 2, 2002, 4690 : 1193 - 1202
12345