In situ SANS study of a protein- graphene oxide (GO) co-assembly system

DOI

Supramolecular chemistry offers an exciting opportunity to assemble materials with molecular precision. However, there remains an unmet need to turn molecular self-assembly into functional materials and devices with practical applications. We have recently identified a hierarchical ELastin-like recombinamer (ELR)-GO co-assembling system that takes advantage of ELR disorder-to-order transitions at its transition temperature (Tt, 30 °C) to access non-equilibrium and generate functional dynamic materials for tissue engineering scaffolds or organ-on-a-chip devices.However, the precise mechanism with which ELR interact with GO is still unclear, the ELR confirmation and its key disorder-order transition in real time upon interaction with GO in situ will be answered by SANS.

Identifier
DOI https://doi.org/10.5286/ISIS.E.RB1920520-1
Metadata Access https://icatisis.esc.rl.ac.uk/oaipmh/request?verb=GetRecord&metadataPrefix=oai_datacite&identifier=oai:icatisis.esc.rl.ac.uk:inv/105600808
Provenance
Creator Dr Diego Alba Venero; Professor Alvaro Mata; Dr Yiqiang Wang; Dr Adam Washington; Dr Yuanhao Wu; Dr Bin Zhu; Dr Tan Sui; Mr Xuhui Yao; Mr Nathanael Leung
Publisher ISIS Neutron and Muon Source
Publication Year 2022
Rights CC-BY Attribution 4.0 International; https://creativecommons.org/licenses/by/4.0/
OpenAccess true
Contact isisdata(at)stfc.ac.uk
Representation
Resource Type Dataset
Discipline Photon- and Neutron Geosciences
Temporal Coverage Begin 2019-09-11T07:30:00Z
Temporal Coverage End 2019-09-16T07:30:52Z