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Recent efforts of vapour-phase strategies for EUV resist toward high- and hyper-NA extreme ultraviolet lithographyopen access

Authors
Chu, Thi Thu HuongLe, Dan N.Lee, MinjongNarayan, Dushyant M.Kim, Doo SanShirodkar, SohamChoe, MinkiYoo, SuyoungTiwale, NikhilChoi, RinoAhn, JinhoSung, Myung MoNam, Chang-YongKim, Jiyoung
Issue Date
Jun-2026
Publisher
ROYAL SOC CHEMISTRY
Citation
CHEMICAL SCIENCE, v.17, no.24, pp 11754 - 11773
Pages
20
Indexed
SCIE
SCOPUS
Journal Title
CHEMICAL SCIENCE
Volume
17
Number
24
Start Page
11754
End Page
11773
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/218228
DOI
10.1039/d6sc02112c
ISSN
2041-6520
2041-6539
Abstract
Extreme ultraviolet lithography (EUVL, lambda = 13.5 nm) is critical for sub-1 nm technology nodes but remains constrained by inherent trade-offs among resolution, line-edge roughness (LER), and sensitivity. Stochastic effects originating from photon shot noise, low-energy secondary electron blur, and the random distribution of resist components further limit its advancement toward high numerical-aperture (NA, NA = 0.55) and hyper-NA (NA >= 0.75) EUVL. While the optimization of spin-on chemically amplified resists (CARs) continues, metal-oxide resists (MORs) have emerged as strong candidates for next-generation EUVL by incorporating metals with high EUV absorption coefficients, which enhances both resist sensitivity and etch resistance during pattern transfer. Besides spin-coating, recent advances in vapour-phase techniques, such as vapour-phase infiltration (VPI), chemical vapour deposition (CVD), and molecular atomic layer deposition (MALD), offer promising pathways to achieve new resist platforms, such as dry resists, that satisfy the stringent thickness and uniformity requirements of next-generation EUVL. These methods enable the direct incorporation of metal species into existing resist matrices or the formation of hybrid inorganic-organic resist platforms, thereby improving film uniformity, etch durability, and pattern fidelity while mitigating stochastic defects. This review highlights the latest advancements in vapour-phase-synthesized EUV resists, emphasizing material design, lithographic performance, and the underlying exposure mechanisms. Although still emerging, vapour-phase strategies are paving the way for an all-dry integration framework that could improve EUV patterning workflows and meet the demands of future technology nodes.
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서울 자연과학대학 > 서울 화학과 > 1. Journal Articles
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