High-performance triazole-containing brush polymers via azide-alkyne click chemistry: A new functional polymer platform for electrical memory devices

Sungjin Song, Yong Gi Ko, Hoyeol Lee Lee, Dongwoo Wi Wi, Brian J. Ree, Yongrong Li Li, Tsuyoshi Michinobu Michinobu, Moonhor Ree Ree

Research output: Contribution to journalArticlepeer-review

40 Scopus citations

Abstract

Two series of well-defined brush polymers bearing a triazole moiety on each bristle were prepared from the click chemistry reactions of a poly(glycidyl azide) (PG) and a poly(4-azidomethylstyrene) (PS) with alkyne derivatives. The thin-film morphologies and properties, especially electrical memory performances, of these triazole-containing brush polymers were investigated in detail. The brush polymers with a triazole ring substituted with an alkyl or alkylenylphenyl group in the bristle exhibited only dielectric characteristics. By contrast, the other brush polymers bearing a triazole ring substituted with phenyl or its derivatives with a longer π-conjugation length in the bristle demonstrated excellent unipolar permanent memory behaviors with low power consumption, high ON/OFF current ratios and high stability and reliability under ambient air conditions. Furthermore, their memory type could be tuned to p- or n-type by the incorporation of an electron-donating or -accepting group into the phenyl unit linked to the triazole moiety. Overall, this study presents the first demonstration of the azide-alkyne click chemistry synthesis of triazole moieties with substituent(s) that exhibit a resonance effect; this approach is a very powerful synthetic route to develop electrical memory polymers suitable for the low-cost mass production of high-performance, polarity-free programmable memory devices.

Original languageEnglish
Article numbere228
JournalNPG Asia Materials
Volume7
Issue number12
DOIs
StatePublished - 18 Dec 2015

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