Tuneable Fmoc–Phe–(4-X)–Phe–NH2 nanostructures by variable electronic substitution
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Title
Tuneable Fmoc–Phe–(4-X)–Phe–NH2 nanostructures by variable electronic substitution
Authors
Keywords
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Journal
CHEMICAL COMMUNICATIONS
Volume 50, Issue 73, Pages 10630-10633
Publisher
Royal Society of Chemistry (RSC)
Online
2014-07-23
DOI
10.1039/c4cc04926h
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Note: Only part of the references are listed.- Biocatalytic Self-Assembly of Supramolecular Charge-Transfer Nanostructures Based on n-Type Semiconductor-Appended Peptides
- (2014) Siva Krishna Mohan Nalluri et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- β Sheets Not Required: Combined Experimental and Computational Studies of Self-Assembly and Gelation of the Ester-Containing Analogue of an Fmoc-Dipeptide Hydrogelator
- (2014) Kevin M. Eckes et al. LANGMUIR
- Aromatic peptide amphiphiles: significance of the Fmoc moiety
- (2013) Scott Fleming et al. CHEMICAL COMMUNICATIONS
- The importance of the self-assembly process to control mechanical properties of low molecular weight hydrogels
- (2013) Jaclyn Raeburn et al. CHEMICAL SOCIETY REVIEWS
- Assessing the Utility of Infrared Spectroscopy as a Structural Diagnostic Tool for β-Sheets in Self-Assembling Aromatic Peptide Amphiphiles
- (2013) Scott Fleming et al. LANGMUIR
- Supramolecular self-assemblies as functional nanomaterials
- (2013) Eric Busseron et al. Nanoscale
- Evidence of π-stacking interactions in the self-assembly of hIAPP22-29
- (2013) Adam A. Profit et al. PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS
- Biocatalytically Triggered Co-Assembly of Two-Component Core/Shell Nanofibers
- (2013) Yousef M. Abul-Haija et al. Small
- Mechanistic insights into phosphatase triggered self-assembly including enhancement of biocatalytic conversion rate
- (2013) Kate Thornton et al. Soft Matter
- Discovery of energy transfer nanostructures using gelation-driven dynamic combinatorial libraries
- (2013) Siva Krishna Mohan Nalluri et al. Chemical Science
- Differential supramolecular organisation of Fmoc-dipeptides with hydrophilic terminal amino acid residues by biocatalytic self-assembly
- (2012) Meghan Hughes et al. Soft Matter
- Sequence/structure relationships in aromatic dipeptide hydrogels formed under thermodynamic control by enzyme-assisted self-assembly
- (2012) Meghan Hughes et al. Soft Matter
- Enzyme responsive materials: design strategies and future developments
- (2012) Mischa Zelzer et al. Biomaterials Science
- Effect ofC-Terminal Modification on the Self-Assembly and Hydrogelation of Fluorinated Fmoc-Phe Derivatives
- (2011) Derek M. Ryan et al. LANGMUIR
- Biocatalytic self-assembly of 2D peptide-based nanostructures
- (2011) Meghan Hughes et al. Soft Matter
- Micelle to fibre biocatalytic supramolecular transformation of an aromatic peptide amphiphile
- (2010) Jan W. Sadownik et al. CHEMICAL COMMUNICATIONS
- Biocatalytic induction of supramolecular order
- (2010) Andrew R. Hirst et al. Nature Chemistry
- Lipase-supported synthesis of peptidic hydrogels
- (2010) Laura Chronopoulou et al. Soft Matter
- The influence of side-chain halogenation on the self-assembly and hydrogelation of Fmoc-phenylalanine derivatives
- (2010) Derek M. Ryan et al. Soft Matter
- Relationship between molecular structure, gelation behaviour and gel properties of Fmoc-dipeptides
- (2010) Dave J. Adams et al. Soft Matter
- Controlling stiffness in nanostructured hydrogels produced by enzymatic dephosphorylation
- (2009) Kate Thornton et al. BIOCHEMICAL SOCIETY TRANSACTIONS
- High-Tech Applications of Self-Assembling Supramolecular Nanostructured Gel-Phase Materials: From Regenerative Medicine to Electronic Devices
- (2008) Andrew R. Hirst et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Designing peptide based nanomaterials
- (2008) Rein V. Ulijn et al. CHEMICAL SOCIETY REVIEWS
- Enzyme-assisted self-assembly under thermodynamic control
- (2008) Richard J. Williams et al. Nature Nanotechnology
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