Will Wenmiao Shu
Will Wenmiao Shu
Hay Professor, Department of Biomedical Engineering, University of Strathclyde
Verified email at
Cited by
Cited by
3D bioactive composite scaffolds for bone tissue engineering
G Turnbull, J Clarke, F Picard, P Riches, L Jia, F Han, B Li, W Shu
Bioactive materials 3 (3), 278-314, 2018
Biofabrication: reappraising the definition of an evolving field
J Groll, T Boland, T Blunk, JA Burdick, DW Cho, PD Dalton, B Derby, ...
Biofabrication 8 (1), 013001, 2016
Biofabrication: a guide to technology and terminology
L Moroni, T Boland, JA Burdick, C De Maria, B Derby, G Forgacs, J Groll, ...
Trends in biotechnology 36 (4), 384-402, 2018
Bioprinting of human pluripotent stem cells and their directed differentiation into hepatocyte-like cells for the generation of mini-livers in 3D
A Faulkner-Jones, C Fyfe, DJ Cornelissen, J Gardner, J King, A Courtney, ...
Biofabrication 7 (4), 044102, 2015
Rapid formation of a supramolecular polypeptide–DNA hydrogel for in situ three‐dimensional multilayer bioprinting
C Li, A Faulkner‐Jones, AR Dun, J Jin, P Chen, Y Xing, Z Yang, Z Li, ...
Angewandte Chemie International Edition 54 (13), 3957-3961, 2015
Three-dimensional bioprinting of complex cell laden alginate hydrogel structures
AG Tabriz, MA Hermida, NR Leslie, W Shu
Biofabrication 7 (4), 045012, 2015
The bioprinting roadmap
W Sun, B Starly, AC Daly, JA Burdick, J Groll, G Skeldon, W Shu, Y Sakai, ...
Biofabrication 12 (2), 022002, 2020
Development of a valve-based cell printer for the formation of human embryonic stem cell spheroid aggregates
A Faulkner-Jones, S Greenhough, JA King, J Gardner, A Courtney, W Shu
Biofabrication 5 (1), 015013, 2013
Reconstruction of the mouse extrahepatic biliary tree using primary human extrahepatic cholangiocyte organoids
F Sampaziotis, AW Justin, OC Tysoe, S Sawiak, EM Godfrey, SS Upponi, ...
Nature medicine 23 (8), 954-963, 2017
DNA molecular motor driven micromechanical cantilever arrays
W Shu, D Liu, M Watari, CK Riener, T Strunz, ME Welland, ...
Journal of the American Chemical Society 127 (48), 17054-17060, 2005
Additive manufacturing: unlocking the evolution of energy materials
A Zhakeyev, P Wang, L Zhang, W Shu, H Wang, J Xuan
Advanced Science 4 (10), 1700187, 2017
Kinetics and thermodynamics of amyloid formation from direct measurements of fluctuations in fibril mass
TPJ Knowles, W Shu, GL Devlin, S Meehan, S Auer, CM Dobson, ...
Proceedings of the National Academy of Sciences 104 (24), 10016-10021, 2007
Highly reversible and multi-stage cantilever actuation driven by polyelectrolyte brushes
F Zhou, W Shu, ME Welland, WTS Huck
Journal of the American Chemical Society 128 (16), 5326-5327, 2006
3D bioprint me: a socioethical view of bioprinting human organs and tissues
N Vermeulen, G Haddow, T Seymour, A Faulkner-Jones, W Shu
Journal of Medical Ethics 43 (9), 618-624, 2017
Polyelectrolyte brush amplified electroactuation of microcantilevers
F Zhou, PM Biesheuvel, EY Choi, W Shu, R Poetes, U Steiner, WTS Huck
Nano letters 8 (2), 725-730, 2008
Elasticity as a biomarker for prostate cancer: a systematic review.
DW Good, GD Stewart, S Hammer, P Scanlan, W Shu, S Phipps, ...
BJU international 113 (4), 2014
Investigation of biotin–streptavidin binding interactions using microcantilever sensors
W Shu, ED Laue, AA Seshia
Biosensors and bioelectronics 22 (9-10), 2003-2009, 2007
Carbon quantum dots derived from lysine and arginine simultaneously scavenge bacteria and promote tissue repair
P Li, F Han, W Cao, G Zhang, J Li, J Zhou, X Gong, G Turnbull, W Shu, ...
Applied Materials Today 19, 100601, 2020
3D biofabrication for tubular tissue engineering
I Holland, J Logan, J Shi, C McCormick, D Liu, W Shu
Bio-design and Manufacturing 1, 89-100, 2018
Three dimensional in vitro models of cancer: Bioprinting multilineage glioblastoma models
MA Hermida, JD Kumar, D Schwarz, KG Laverty, A Di Bartolo, M Ardron, ...
Advances in biological regulation 75, 100658, 2020
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