Straightforward Integration Flow of a Silicon-Containing Block Copolymer for Line–Space Patterning

A promising alternative for the next-generation lithography is based on the directed self-assembly of block copolymers (BCPs) used as a bottom-up tool for the definition of nanometric features. Herein, a straightforward integration flow for line-space patterning is reported for a silicon BCP system,...

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Veröffentlicht in:	ACS applied materials & interfaces 2017-12, Vol.9 (49), p.43043-43050
Hauptverfasser:	Legrain, Antoine, Fleury, Guillaume, Mumtaz, Muhammad, Navarro, Christophe, Arias-Zapata, Javier, Chevalier, Xavier, Cayrefourcq, Ian, Zelsmann, Marc
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Sprache:	eng
Schlagworte:	Physics
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container_title	ACS applied materials & interfaces
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creator	Legrain, Antoine Fleury, Guillaume Mumtaz, Muhammad Navarro, Christophe Arias-Zapata, Javier Chevalier, Xavier Cayrefourcq, Ian Zelsmann, Marc
description	A promising alternative for the next-generation lithography is based on the directed self-assembly of block copolymers (BCPs) used as a bottom-up tool for the definition of nanometric features. Herein, a straightforward integration flow for line-space patterning is reported for a silicon BCP system, that is, poly(1,1-dimethylsilacyclobutane)-b-poly(styrene) (PDMSB-b-PS), able to define sub 15 nm features. Both in-plane cylindrical (L 0 = 20.7 nm) and out-of-plane lamellar structures (L 0 = 23.2 nm) formed through a rapid thermal annealing10 min at 180 °Cwere successfully integrated using graphoepitaxy to provide a long-range ordering of the BCP structure without the use of underlayers or top coats. Subsequent deep transfer into the silicon substrate using the hardened oxidized PDMSB domains as a mask is demonstrated. Combining a rapid self-assembly behavior, straightforward integration, and an excellent etching contrast, PDMSB-b-PS may become a material of choice for the next-generation lithography.
doi_str_mv	10.1021/acsami.7b12217
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title	Straightforward Integration Flow of a Silicon-Containing Block Copolymer for Line–Space Patterning
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