Jin-Ho Yeo scite author profile

Jin-Ho Yeo

5Publications

40Citation Statements Received

145Citation Statements Given

How they've been cited

How they cite others

158

145

Affiliations

Sungkyunkwan University, Gyeongsang National University

Publications

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Fabrication of extreme ultraviolet lithography pellicle with nanometer-thick graphite film by sublimation of camphor supporting layer

Nam

Yeo

et al. 2021

Nanotechnology

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An extreme ultraviolet (EUV) pellicle consists of freestanding thin films on a frame; these films are tens of nanometers in thickness and can include Si, SiN X , or graphite. Nanometer-thick graphite films (NGFs), synthesized via chemical vapor deposition on a metal catalyst, are used as a pellicle material. The most common method to transfer NGFs onto a substrate or a frame is to use polymethyl methacrylate (PMMA) as a supporting layer. However, this PMMA-mediated technique involves several disadvantages in term of manufacturing NGF EUV pellicles. When removing the PMMA using acetone or O 2 plasma, defects or deflections can occur in the NGFs. Furthermore, PMMA residues are generally present on large-area NGFs. In this study, a transfer method using camphor instead of PMMA as the supporting layer was developed to overcome these problems. After the camphor/NGF was formed on the frame, camphor was removed via sublimation in an atmosphere of ethanol vapor. This study investigated the deposition and sublimation of camphor, and confirmed that no residue was present and no deflection or defects were observed in the NGFs. Thus, a large-area NGF pellicle was successfully fabricated using the camphor transfer process.

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A way to improve the uniformity of nanometer-thickness graphite film synthesized on polycrystalline Ni substrate: From large grain to small grain

Kim

Nam

et al. 2019

Carbon

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Fabrication of a 100 × 100 mm² nanometer-thick graphite pellicle for extreme ultraviolet lithography by a peel-off and camphor-supported transfer approach

Nam

Yeo

et al. 2022

Nanoscale Adv.

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Synthesis of uniform nanometer-thick graphite film on polycrystalline Ni substrate with ultrafine grains

Nam

Yeo

et al. 2021

Carbon

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Boron carbide coating to improve the chemical stability of nm-thick graphite films

et al. 2020

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Jin-Ho Yeo

Fabrication of extreme ultraviolet lithography pellicle with nanometer-thick graphite film by sublimation of camphor supporting layer

A way to improve the uniformity of nanometer-thickness graphite film synthesized on polycrystalline Ni substrate: From large grain to small grain

Fabrication of a 100 × 100 mm² nanometer-thick graphite pellicle for extreme ultraviolet lithography by a peel-off and camphor-supported transfer approach

Synthesis of uniform nanometer-thick graphite film on polycrystalline Ni substrate with ultrafine grains

Boron carbide coating to improve the chemical stability of nm-thick graphite films

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About

Jin-Ho Yeo

Fabrication of extreme ultraviolet lithography pellicle with nanometer-thick graphite film by sublimation of camphor supporting layer

A way to improve the uniformity of nanometer-thickness graphite film synthesized on polycrystalline Ni substrate: From large grain to small grain

Fabrication of a 100 × 100 mm2 nanometer-thick graphite pellicle for extreme ultraviolet lithography by a peel-off and camphor-supported transfer approach

Synthesis of uniform nanometer-thick graphite film on polycrystalline Ni substrate with ultrafine grains

Boron carbide coating to improve the chemical stability of nm-thick graphite films

Contact Info

Product

Resources

About

Fabrication of a 100 × 100 mm² nanometer-thick graphite pellicle for extreme ultraviolet lithography by a peel-off and camphor-supported transfer approach