Designer nanomaterials using chiral self-assembling peptide systems and their emerging benefit for society.
about
Self-Assembly of Gold Nanoparticles Shows Microenvironment-Mediated Dynamic Switching and Enhanced Brain Tumor Targeting.Peptides as new smart bionanomaterials: molecular-recognition and self-assembly capabilities.Advances in Functional Assemblies for Regenerative Medicine.Formation of functional super-helical assemblies by constrained single heptad repeatCation Tuning toward the Inference of the Gelation Behavior of Supramolecular Gels.Emerging chirality in nanoscience.Self-assembly in nature: using the principles of nature to create complex nanobiomaterials.Dynamic biointerfaces: from recognition to function.Role of peptide self-assembly in antimicrobial peptides.The Unexpected Advantages of Using D-Amino Acids for Peptide Self- Assembly into Nanostructured Hydrogels for Medicine.Self-Assembled Chiral Nanostructures as Scaffolds for Asymmetric Reactions.Smart Polymers with Special Wettability.Self-assembling peptide-based building blocks in medical applications.A nanostructured synthetic collagen mimic for hemostasis.Structure-mechanical property correlations of hydrogel forming β-sheet peptides.Tracking morphologies at the nanoscale: self-assembly of an amphiphilic designer peptide into a double helix superstructure.Peptide:glycosaminoglycan hybrid hydrogels as an injectable intervention for spinal disc degeneration.Inversion of Supramolecular Chirality by Sonication-Induced Organogelation.β(3R3)-Peptides: design and synthesis of novel peptidomimetics and their self-assembling properties at the air-water interface.Intramolecular interactions of a phenyl/perfluorophenyl pair in the formation of supramolecular nanofibers and hydrogels.Sonication-induced coiled fibrous architectures of Boc-L-Phe-L-Lys(Z)-OMe.Photocontrolled self-assembly of a bis-azobenzene-containing α-amino acid.Supramolecular self-assembly of N-acetyl-capped β-peptides leads to nano- to macroscale fiber formation.Discovery and design of self-assembling peptides.Laminin-derived Ile-Lys-Val-ala-Val: a promising bioactive peptide in neural tissue engineering in traumatic brain injury.A terminally protected dipeptide: from crystal structure and self-assembly, through co-assembly with carbon-based materials, to a ternary catalyst for reduction chemistry in water.Self-assembled chiral nanostructures of amphiphilic peptide: from single molecule to aggregate.Hydrogels with smart systems for delivery of hydrophobic drugs.Balancing hydrophobicity and sequence pattern to influence self-assembly of amphipathic peptides.Chiral Amplification by Self-Assembly of Neutral Luminescent Platinum(II) Complexes.2-Methoxy-4-methylsulfinylbenzyl: a backbone amide safety-catch protecting group for the synthesis and purification of difficult peptide sequences.Mechanics of single peptide hydrogelator fibrils.Hg(2+) -induced in situ generated radical cation of (S)-BINOL-based polymer for highly enantioselective recognition of phenylalaninol.Control of three-dimensional cell adhesion by the chirality of nanofibers in hydrogels.Light-driven topochemical polymerization under organogel conditions of a symmetrical dipeptide-diacetylene system.Tuning peptide self-assembly by an in-tether chiral center.RADA-16: A Tough Peptide - Strategies for Synthesis and PurificationElaborate Design Strategies Toward Novel Microcarriers for Controlled Encapsulation and Release
P2860
Q33820994-7CC18F0C-75FB-4FA4-B1A3-2E3A098717BEQ34610897-37D786EA-5393-462F-B6CB-2F53EB883626Q35894382-82CC0657-BC86-424E-9139-ADB83EDC2B93Q36251804-BE9F3BE2-A35E-4C80-AA42-BB9B4EBC88D3Q36860535-4CC02C7B-6B85-4B91-9FA7-65692B0C0D32Q38064723-9E9C9529-7FDE-4C53-8B58-4E0698745174Q38127659-29DE0ED0-F226-4DAA-83AC-325A99D27BFBQ38263665-2CDB1A76-C248-4680-97DB-653CF61F3AA3Q38534935-1D67F299-0A94-4DA2-B050-267D6502A752Q38733337-711108CE-29B7-4016-B229-25EFC4162635Q38739864-C171DD04-886B-485A-86E8-A294BB82E4A1Q38786419-0E35112B-B735-48BC-985C-5AB9C2D4081CQ38830346-E3B364C5-B70C-46C5-952F-1E26DA5FF44BQ38862626-527DA147-8857-4993-B0B4-8D6608D5FCB2Q38865237-C335C1CB-5B42-4BF4-B86A-18F7C87546D0Q40625022-3F2500CB-DFBF-4D83-A07F-0965F38C3C94Q41887153-19042794-DFFD-451C-ADAF-093D0C4E4A02Q42616080-8EF31E38-E4B7-49F7-B7FB-5EFB7B2AD2E3Q44501775-144744D4-538E-4A35-9C9D-89CE06A15258Q44618903-5E3B75AB-604E-4C65-BB2B-15DAA9321F23Q44643624-3AA2AE53-3768-4CE5-860E-4148826B435AQ45734522-38688EA8-E39C-4653-9A4B-0F9BB4298EB3Q45937418-AFCE854C-4AC0-48EB-81FF-5B59B662952DQ47339433-B7D5F739-E25E-4CDD-88DF-A26C5A92A5A4Q47399934-C58CC866-17C4-4077-95D7-BC36B0DA6245Q47639831-7B3F5313-CB4A-4B93-869A-39648C011976Q48055932-FBAA36D1-E7CE-4D09-AA1E-B55060DF602DQ48319795-3C0E05C9-0FB8-4C4A-9E62-13E132D8EB34Q48324293-D0007ACE-F8AC-4FA5-9A85-26A8A6759C42Q48360641-2C851E51-B176-434B-9FBA-F835C17BD1B1Q51047203-BFD77738-8204-4F5E-8EDF-EF5255814FF3Q53295026-6D096CCE-E598-4834-A6F2-3FBD794289C7Q53495480-37B54013-B885-45E8-BEF1-F3E99699E036Q53528533-FDAE423B-682A-4D9F-969B-7892AB7E8D73Q54678734-27E26890-84B2-4711-9FA0-9D55C9622B97Q55041647-D140ECDA-03A7-439E-87D4-41912F66CB4FQ58035063-32E5DC76-FA55-4E28-9554-36B9E2F5D626Q58344054-D66E28B9-6F7A-437D-B24C-5AC6324B93D8
P2860
Designer nanomaterials using chiral self-assembling peptide systems and their emerging benefit for society.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Designer nanomaterials using c ...... emerging benefit for society.
@en
type
label
Designer nanomaterials using c ...... emerging benefit for society.
@en
prefLabel
Designer nanomaterials using c ...... emerging benefit for society.
@en
P2860
P356
P1476
Designer nanomaterials using c ...... emerging benefit for society.
@en
P2093
Shuguang Zhang
Zhongli Luo
P2860
P304
P356
10.1039/C2CS15360B
P577
2012-05-25T00:00:00Z