An optimized alkyl chain-based binding motif for 2D self-assembly: a comprehensive crystallographic approach | Zendy

David Bléger | Zendy; Amandine Bocheux | Zendy; David Kréher | Zendy; Fabrice Mathevet | Zendy; AndréJean Attias | Zendy; Germain Metgé | Zendy; Ludovic Douillard | Zendy; Céline Fiorini–Debuisschert | Zendy; Fabrice Charra | Zendy

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An optimized alkyl chain-based binding motif for 2D self-assembly: a comprehensive crystallographic approach

Author(s) -

David Bléger,

Amandine Bocheux,

David Kréher,

Fabrice Mathevet,

AndréJean Attias,

Germain Metgé,

Ludovic Douillard,

Céline Fiorini–Debuisschert,

Fabrice Charra

Publication year - 2013

Publication title -

nanoscale

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.038

H-Index - 224

eISSN - 2040-3372

pISSN - 2040-3364

DOI - 10.1039/c2nr33509c

Subject(s) - alkyl , self assembly , materials science , crystallography , motif (music) , graphite , nanotechnology , structural motif , chemistry , organic chemistry , physics , biochemistry , acoustics , composite material

Taking into account substrate crystallographic constraints, an overarching molecular binding motif has been designed to allow transferable self-assembling patterns on different substrates. This optimized clip demonstrates robust and equivalent self-assembled architectures on both highly oriented pyrolitic graphite (HOPG) and reconstructed Au(111) surfaces.

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