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We report the thermodynamically controlled growth of solution-processable and free-standing nanosheets via peptide assembly in two dimensions. By taking advantage of self-sorting between peptide β-strands and hydrocarbon chains, we have demonstrated the formation of Janus 2D structures with single-layer thickness, which enable a predetermined surface heterofunctionalization. A controlled 2D-to-1D morphological transition was achieved by subtly adjusting the intermolecular forces. These nanosheets provide an ideal substrate for the engineering of guest components (e.g., proteins and nanoparticles), where enhanced enzyme activity was observed. We anticipate that sequence-specific programmed peptides will offer promise as design elements for 2D assemblies with face-selective functionalization.

Original publication

DOI

10.1021/jacs.7b06591

Type

Journal article

Journal

J Am Chem Soc

Publication Date

04/10/2017

Volume

139

Pages

13592 - 13595

Keywords

Molecular Structure, Nanostructures, Particle Size, Peptides, Thermodynamics