Robert Chapman
Robert Chapman
School of Environmental and Life Sciences, University of Newcastle
Verified email at - Homepage
Cited by
Cited by
Design and properties of functional nanotubes from the self-assembly of cyclic peptide templates
R Chapman, M Danial, ML Koh, KA Jolliffe, S Perrier
Chemical Society Reviews 41 (18), 6023-6041, 2012
Up in the air: oxygen tolerance in controlled/living radical polymerisation
J Yeow, R Chapman, AJ Gormley, C Boyer
Chemical Society Reviews 47 (12), 4357-4387, 2018
Oxygen tolerant photopolymerization for ultralow volumes
J Yeow, R Chapman, J Xu, C Boyer
Polymer Chemistry 8 (34), 5012-5022, 2017
Highly controlled open vessel RAFT polymerizations by enzyme degassing
R Chapman, AJ Gormley, KL Herpoldt, MM Stevens
Macromolecules 47 (24), 8541-8547, 2014
An oxygen‐tolerant PET‐RAFT polymerization for screening structure–activity relationships
AJ Gormley, J Yeow, G Ng, Conway, C Boyer, R Chapman
Angewandte Chemie International Edition 57 (6), 1557-1562, 2018
Combinatorial low‐volume synthesis of well‐defined polymers by enzyme degassing
R Chapman, AJ Gormley, MH Stenzel, MM Stevens
Angewandte Chemie 128 (14), 4576-4579, 2016
All wrapped up: Stabilization of enzymes within single enzyme nanoparticles
R Chapman, MH Stenzel
Journal of the American Chemical Society 141 (7), 2754-2769, 2019
Multivalent nanoparticle networks enable point-of-care detection of human phospholipase-A2 in serum
R Chapman, Y Lin, M Burnapp, A Bentham, D Hillier, A Zabron, S Khan, ...
ACS nano 9 (3), 2565-2573, 2015
Synthetic strategies for the design of peptide/polymer conjugates
S Dehn, R Chapman, KA Jolliffe, S Perrier
Polymer Reviews 51 (2), 214-234, 2011
Methods, compositions and devices, including microfluidic devices, comprising coated hydrophobic surfaces
R Chapman, M Zhao, J Ni, L Bousse, J Stults, S Yang
US Patent App. 10/942,612, 2006
Modular design for the controlled production of polymeric nanotubes from polymer/peptide conjugates
R Chapman, KA Jolliffe, S Perrier
Polymer Chemistry 2 (9), 1956-1963, 2011
Living in the fast lane—High throughput controlled/living radical polymerization
S Oliver, L Zhao, AJ Gormley, R Chapman, C Boyer
Macromolecules 52 (1), 3-23, 2018
A low friction, biphasic and boundary lubricating hydrogel for cartilage replacement
PE Milner, M Parkes, JL Puetzer, R Chapman, MM Stevens, P Cann, ...
Acta biomaterialia 65, 102-111, 2018
Synthesis of self-assembling cyclic peptide-polymer conjugates using click chemistry
R Chapman, KA Jolliffe, S Perrier
Australian journal of chemistry 63 (8), 1169-1172, 2010
Pushing the limits of high throughput PET-RAFT polymerization
G Ng, J Yeow, R Chapman, N Isahak, E Wolvetang, JJ Cooper-White, ...
Macromolecules 51 (19), 7600-7607, 2018
Synthesis and immunological evaluation of self‐assembling and self‐adjuvanting tricomponent glycopeptide cancer‐vaccine candidates
BL Wilkinson, S Day, R Chapman, S Perrier, V Apostolopoulos, RJ Payne
Chemistry–A European Journal 18 (51), 16540-16548, 2012
Polymerization amplified detection for nanoparticle-based biosensing
AJ Gormley, R Chapman, MM Stevens
Nano letters 14 (11), 6368-6373, 2014
Integrative self‐assembly of graphene quantum dots and biopolymers into a versatile biosensing toolkit
Y Lin, R Chapman, MM Stevens
Advanced functional materials 25 (21), 3183-3192, 2015
Structure elucidation and control of cyclic peptide-derived nanotube assemblies in solution
R Chapman, ML Koh, GG Warr, KA Jolliffe, S Perrier
Chemical Science 4 (6), 2581-2589, 2013
Thermoresponsive cyclic peptide–poly (2-ethyl-2-oxazoline) conjugate nanotubes
R Chapman, PJM Bouten, R Hoogenboom, KA Jolliffe, S Perrier
Chemical Communications 49 (58), 6522-6524, 2013
The system can't perform the operation now. Try again later.
Articles 1–20