Rodney Priestley
Rodney Priestley
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Cited by
Cited by
Structural relaxation of polymer glasses at surfaces, interfaces, and in between
RD Priestley, CJ Ellison, LJ Broadbelt, JM Torkelson
Science 309 (5733), 456-459, 2005
Model polymer nanocomposites provide an understanding of confinement effects in real nanocomposites
P Rittigstein, RD Priestley, LJ Broadbelt, JM Torkelson
Nature materials 6 (4), 278-282, 2007
Core–Shell Fe3O4 Polydopamine Nanoparticles Serve Multipurpose as Drug Carrier, Catalyst Support and Carbon Adsorbent
R Liu, Y Guo, G Odusote, F Qu, RD Priestley
ACS applied materials & interfaces 5 (18), 9167-9171, 2013
Phase behaviour of disordered proteins underlying low density and high permeability of liquid organelles
MT Wei, S Elbaum-Garfinkle, AS Holehouse, CCH Chen, M Feric, ...
Nature chemistry 9 (11), 1118-1125, 2017
Glass transition temperature of polymer nanoparticles under soft and hard confinement
C Zhang, Y Guo, RD Priestley
Macromolecules 44 (10), 4001-4006, 2011
Ultrastable nanostructured polymer glasses
Y Guo, A Morozov, D Schneider, JW Chung, C Zhang, M Waldmann, ...
Nature materials 11 (4), 337-343, 2012
Flash nanoprecipitation of polystyrene nanoparticles
C Zhang, VJ Pansare, RK Prud'Homme, RD Priestley
Soft Matter 8 (1), 86-93, 2012
Physical aging of ultrathin polymer films above and below the bulk glass transition temperature: Effects of attractive vs neutral polymer-substrate interactions measured by …
RD Priestley, LJ Broadbelt, JM Torkelson
Macromolecules 38 (3), 654-657, 2005
Effects of nanoscale confinement and interfaces on the glass transition temperatures of a series of poly (n-methacrylate) films
RD Priestley, MK Mundra, NJ Barnett, LJ Broadbelt, JM Torkelson
Australian Journal of Chemistry 60 (10), 765-771, 2007
Glass transition and α-relaxation dynamics of thin films of labeled polystyrene
RD Priestley, LJ Broadbelt, JM Torkelson, K Fukao
Physical Review E 75 (6), 061806, 2007
Au@ carbon yolk–shell nanostructures via one-step core–shell–shell template
R Liu, F Qu, Y Guo, N Yao, RD Priestley
Chemical Communications 50 (4), 478-480, 2014
Evidence for the molecular-scale origin of the suppression of physical ageing in confined polymer: fluorescence and dielectric spectroscopy studies of polymer–silica nanocomposites
RD Priestley, P Rittigstein, LJ Broadbelt, K Fukao, JM Torkelson
Journal of Physics: Condensed Matter 19 (20), 205120, 2007
On the equivalence between the thermodynamic and dynamic measurements of the glass transition in confined polymers
RD Priestley, D Cangialosi, S Napolitano
Journal of non-crystalline solids 407, 288-295, 2015
Direct measurement of glass transition temperature in exposed and buried adsorbed polymer nanolayers
MJ Burroughs, S Napolitano, D Cangialosi, RD Priestley
Macromolecules 49 (12), 4647-4655, 2016
Physical aging of confined glasses
RD Priestley
Soft Matter 5 (5), 919-926, 2009
Photoresponsive coumarin‐stabilized polymeric nanoparticles as a detectable drug carrier
JW Chung, KA Lee, C Neikirk, CM Nelson, RD Priestley
small 8 (11), 1693-1700, 2012
Rational design and fabrication of core–shell nanoparticles through a one-step/pot strategy
R Liu, RD Priestley
Journal of Materials Chemistry A 4 (18), 6680-6692, 2016
Mobility and glass transition temperature of polymer nanospheres
C Zhang, VM Boucher, D Cangialosi, RD Priestley
Polymer 54 (1), 230-235, 2013
Nanomedicine as a non-invasive strategy for drug delivery across the blood brain barrier
VH Tam, C Sosa, R Liu, N Yao, RD Priestley
International journal of pharmaceutics 515 (1-2), 331-342, 2016
Structural Relaxation of Polymer Nanospheres under Soft and Hard Confinement: Isobaric versus Isochoric Conditions
Y Guo, C Zhang, C Lai, RD Priestley, M D’Acunzi, G Fytas
Acs Nano 5 (7), 5365-5373, 2011
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