David Alexander Gregory
Title
Cited by
Cited by
Year
Electrokinetic effects in catalytic platinum-insulator Janus swimmers
S Ebbens, DA Gregory, G Dunderdale, JR Howse, Y Ibrahim, ...
EPL (Europhysics Letters) 106 (5), 58003, 2014
1732014
Reactive Inkjet Printing of Biocompatible Enzyme Powered Silk Micro‐Rockets
DA Gregory, Y Zhang, PJ Smith, X Zhao, SJ Ebbens
Small 12 (30), 4048-4055, 2016
332016
Magnetic alginate/chitosan nanoparticles for targeted delivery of curcumin into human breast cancer cells
W Song, X Su, DA Gregory, W Li, Z Cai, X Zhao
Nanomaterials 8 (11), 907, 2018
272018
Catalytic janus colloids: Controlling trajectories of chemical microswimmers
SJ Ebbens, DA Gregory
Accounts of chemical research 51 (9), 1931-1939, 2018
232018
Effect of catalyst distribution on spherical bubble swimmer trajectories
DA Gregory, AI Campbell, SJ Ebbens
The Journal of Physical Chemistry C 119 (27), 15339-15348, 2015
212015
Magnetic-silk/polyethyleneimine core-shell nanoparticles for targeted gene delivery into human breast cancer cells
W Song, DA Gregory, H Al-janabi, M Muthana, Z Cai, X Zhao
International journal of pharmaceutics 555, 322-336, 2019
142019
Symmetrical catalytically active colloids collectively induce convective flow
DA Gregory, SJ Ebbens
Langmuir 34 (14), 4307-4313, 2018
132018
Reactive Inkjet Printing of Functional Silk Stirrers for Enhanced Mixing and Sensing
Y Zhang, DA Gregory, Y Zhang, PJ Smith, SJ Ebbens, X Zhao
Small 15 (1), 1804213, 2019
42019
Reactive Inkjet Printing: A Chemical Synthesis Tool
PJ Smith, A Morrin
Royal Society of Chemistry, 2017
42017
Reactive inkjet printing and propulsion analysis of silk-based self-propelled micro-stirrers
DA Gregory, P Kumar, A Jimenez-Franco, Y Zhang, Y Zhang, SJ Ebbens, ...
JoVE (Journal of Visualized Experiments), e59030, 2019
22019
Soft, Hard, and Hybrid Janus Structures: Synthesis, Self-Assembly, and Applications− Catalytic Janus Swimmers
S Ebbens, J Howse, R Archer, D Gregory, A Campbell, G Dunderdale
Soft, Hard, and Hybrid Janus Structures, 315-403, 2017
12017
Regenerated silk fibroin as an inkjet printable biomaterial
Y Zhang, DA Gregory, PJ Smith, X Zhao
NIP & Digital Fabrication Conference 2016 (1), 406-409, 2016
12016
Altering the Bubble Release of Reactive Inkjet Printed Silk Micro-rockets
DA Gregory, Y Zhang, PJ Smith, SJ Ebbens, X Zhao
NIP & Digital Fabrication Conference 2016 (1), 452-456, 2016
12016
Patterning the neuronal cells via inkjet printing of self-assembled peptides on silk scaffolds
W Sun, Y Zhang, DA Gregory, A Jimenez-Franco, MA Tomeh, S Lv, ...
Progress in Natural Science: Materials International, 2020
2020
Natural Biomaterials for Cardiac Tissue Engineering: A Highly Biocompatible Solution
QA Majid, ATR Fricker, DA Gregory, N Davidenko, O Hernandez Cruz, ...
Frontiers in Cardiovascular Medicine 7, 192, 2020
2020
11 Polyhydroxyalkanoates, TheirProcessingand
E Asare, DA Gregory, A Fricker, E Marcello, A Paxinou, CS Taylor, ...
The Handbook of Polyhydroxyalkanoates: Postsynthetic Treatment, Processing …, 2020
2020
Reactive Inkjet Printing of Regenerated Silk Fibroin as a 3D Scaffold for Autonomous Swimming Devices (Micro-rockets)
DA Gregory, Y Zhang, SJ Ebbens, X Zhao
Reactive Inkjet Printing, 169-201, 2017
2017
Reactive Inkjet Printing: Reactive Inkjet Printing of Biocompatible Enzyme Powered Silk Micro‐Rockets (Small 30/2016)
DA Gregory, Y Zhang, PJ Smith, X Zhao, SJ Ebbens
Small 12 (30), 4022-4022, 2016
2016
Catalytic Micromotors
DA Gregory
University of Sheffield, 2016
2016
The system can't perform the operation now. Try again later.
Articles 1–19