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ZAHRADNÍČEK, R. HRABEC, P. BEDNÁŘ, J. PROKEŠ, T.
Original Title
Solvent Optimization of Transferred Graphene with Rosin Layer Based on DOE
Type
book chapter
Language
English
Original Abstract
The method of transferring graphene to semiconductor substrates based on rosin gradually becomes common in practice. Unlike the previous method (use of polymethacrylate) this procedure does not lead to significant contamination at the end of the transfer. The disadvantage, however, is the need to use two solvents: acetone and banana oil instead of one. The purpose of this article is to investigate, by means of a planned experiment, the influence of rosin solvents conventionally used on the resulting graphene layer contamination. The solvents used were isopropyl alcohol (IPA), ethanol and xylene. It was shown by the measured data using atomic force microscopy (AFM), that the lowest contamination can be achieved using isopropyl alcohol.
Keywords
Graphene transfer • solvent • rosin • AFM • DoE
Authors
ZAHRADNÍČEK, R.; HRABEC, P.; BEDNÁŘ, J.; PROKEŠ, T.
Released
1. 2. 2021
Publisher
Springer
ISBN
978-3-030-61659-5
Book
Recent Advances in Soft Computing and Cybernetics
Edition
1
Pages from
71
Pages to
83
Pages count
13
URL
https://link.springer.com/chapter/10.1007/978-3-030-61659-5_7
BibTex
@inbook{BUT148876, author="Radim {Zahradníček} and Pavel {Hrabec} and Josef {Bednář} and Tomáš {Prokeš}", title="Solvent Optimization of Transferred Graphene with Rosin Layer Based on DOE", booktitle="Recent Advances in Soft Computing and Cybernetics", year="2021", publisher="Springer", series="1", pages="71--83", doi="10.1007/978-3-030-61659-5\{_}7", isbn="978-3-030-61659-5", url="https://link.springer.com/chapter/10.1007/978-3-030-61659-5_7" }