CJ Luo
Cited by
Cited by
Electrospinning versus fibre production methods: from specifics to technological convergence
CJ Luo, SD Stoyanov, E Stride, E Pelan, M Edirisinghe
Chemical Society Reviews 41 (13), 4708-4735, 2012
A novel method of selecting solvents for polymer electrospinning
CJ Luo, M Nangrejo, M Edirisinghe
Polymer 51 (7), 1654-1662, 2010
Mapping the influence of solubility and dielectric constant on electrospinning polycaprolactone solutions
CJ Luo, E Stride, M Edirisinghe
Macromolecules 45 (11), 4669-4680, 2012
Remote, fast actuation of programmable multiple shape memory composites by magnetic fields
FH Zhang, ZC Zhang, CJ Luo, IT Lin, Y Liu, J Leng, SK Smoukov
Journal of Materials Chemistry C 3 (43), 11290-11293, 2015
Nanofibres in drug delivery
GR Williams, BT Raimi-Abraham, CJ Luo
UCL Press, 2018
Extreme 13C depletion of carbonates formed during oxidation of biogenic methane in fractured granite
H Drake, ME Åström, C Heim, C Broman, J Åström, M Whitehouse, ...
Nature Communications 6 (1), 7020, 2015
PEEK surface modification by fast ambient-temperature sulfonation for bone implant applications
W Wang, CJ Luo, J Huang, M Edirisinghe
Journal of the Royal Society Interface 16 (152), 20180955, 2019
Electrospraying and electrospinning of chocolate suspensions
CJ Luo, S Loh, E Stride, M Edirisinghe
Food and Bioprocess Technology 5, 2285-2300, 2012
Preparation of polymeric nanoparticles by novel electrospray nanoprecipitation
CJ Luo, T Okubo, M Nangrejo, M Edirisinghe
Polymer International 64 (2), 183-187, 2015
Core-Liquid-Induced Transition from Coaxial Electrospray to Electrospinning of Low-Viscosity Poly(lactide-co-glycolide) Sheath Solution
CJ Luo, M Edirisinghe
Macromolecules 47 (22), 7930-7938, 2014
Electrospinning fundamentals
GR Williams, BT Raimi-Abraham, CJ Luo
Nanofibres in Drug Delivery 1, 24-59, 2018
Preparation of porous microsphere-scaffolds by electrohydrodynamic forming and thermally induced phase separation
H Ghanbar, CJ Luo, P Bakhshi, R Day, M Edirisinghe
Materials Science and Engineering: C 33 (5), 2488-2498, 2013
Cellular interactions with bacterial cellulose: Polycaprolactone nanofibrous scaffolds produced by a portable electrohydrodynamic gun for point‐of‐need wound dressing
MO Aydogdu, E Altun, M Crabbe‐Mann, F Brako, F Koc, G Ozen, ...
International wound journal 15 (5), 789-797, 2018
Electrospinning short polymer micro-fibres with average aspect ratios in the range of 10–200
CJ Luo, E Stride, S Stoyanov, E Pelan, M Edirisinghe
Journal of Polymer Research 18 (6), 2515-2522, 2011
Layer-by-layer self-assembly: toward magnetic films with tunable anisotropy
W Shi, R Liang, S Xu, Y Wang, C Luo, M Darwish, SK Smoukov
The Journal of Physical Chemistry C 119 (23), 13215-13223, 2015
An Inexpensive, Portable Device for Point‐of‐Need Generation of Silver‐Nanoparticle Doped Cellulose Acetate Nanofibers for Advanced Wound Dressing
F Brako, C Luo, DQM Craig, M Edirisinghe
Macromolecular Materials and Engineering 303 (5), 1700586, 2018
Copolymer composition and nanoparticle configuration enhance in vitro drug release behavior of poorly water-soluble progesterone for oral formulations
Y Zhang, R Zhang, UE Illangakoon, AH Harker, C Thrasivoulou, ...
International Journal of Nanomedicine, 5389-5403, 2020
A 3-dimensional fibre scaffold as an investigative tool for studying the morphogenesis of isolated plant cells
CJ Luo, R Wightman, E Meyerowitz, SK Smoukov
BMC Plant Biology 15, 1-15, 2015
From mammalian tissue engineering to 3D plant cell culture
R Wightman, CJ Luo
The Biochemist 38 (4), 32-35, 2016
A portable device for the generation of drug-loaded three-compartmental fibers containing metronidazole and iodine for topical application
F Brako, C Luo, RK Matharu, L Ciric, A Harker, M Edirisinghe, DQM Craig
Pharmaceutics 12 (4), 373, 2020
The system can't perform the operation now. Try again later.
Articles 1–20