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Henry Shum
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Modelling bacterial behaviour close to a no-slip plane boundary: the influence of bacterial geometry
H Shum, EA Gaffney, DJ Smith
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2010
1782010
Self-propelled nanomotors autonomously seek and repair cracks
J Li, OE Shklyaev, T Li, W Liu, H Shum, I Rozen, AC Balazs, J Wang
Nano Letters 15 (10), 7077-7085, 2015
1372015
An introduction to the hydrodynamics of swimming microorganisms
JM Yeomans, DO Pushkin, H Shum
The European Physical Journal Special Topics 223 (9), 1771-1785, 2014
892014
Convective flow reversal in self-powered enzyme micropumps
I Ortiz-Rivera, H Shum, A Agrawal, A Sen, AC Balazs
Proceedings of the National Academy of Sciences 113 (10), 2585-2590, 2016
882016
Fluid transport by individual microswimmers
DO Pushkin, H Shum, JM Yeomans
Journal of Fluid Mechanics 726, 5-25, 2013
772013
Harnessing catalytic pumps for directional delivery of microparticles in microchambers
S Das, OE Shklyaev, A Altemose, H Shum, I Ortiz-Rivera, L Valdez, ...
Nature communications 8 (1), 14384, 2017
692017
Solutal and thermal buoyancy effects in self-powered phosphatase micropumps
L Valdez, H Shum, I Ortiz-Rivera, AC Balazs, A Sen
Soft Matter 13 (15), 2800-2807, 2017
572017
Hydrodynamic analysis of flagellated bacteria swimming near one and between two no-slip plane boundaries
H Shum, EA Gaffney
Physical Review E 91 (3), 033012, 2015
472015
The effects of flagellar hook compliance on motility of monotrichous bacteria: A modeling study
H Shum, EA Gaffney
Physics of Fluids 24 (6), 2012
422012
Fight the flow: the role of shear in artificial rheotaxis for individual and collective motion
R Baker, JE Kauffman, A Laskar, OE Shklyaev, M Potomkin, ...
Nanoscale 11 (22), 10944-10951, 2019
412019
Patterns of bacterial motility in microfluidics-confining environments
V Tokárová, A Sudalaiyadum Perumal, M Nayak, H Shum, O Kašpar, ...
Proceedings of the National Academy of Sciences 118 (17), e2013925118, 2021
352021
Hydrodynamic analysis of flagellated bacteria swimming in corners of rectangular channels
H Shum, EA Gaffney
Physical review E 92 (6), 063016, 2015
312015
Convective self-sustained motion in mixtures of chemically active and passive particles
OE Shklyaev, H Shum, VV Yashin, AC Balazs
Langmuir 33 (32), 7873-7880, 2017
262017
Designing bioinspired artificial cilia to regulate particle–surface interactions
AC Balazs, A Bhattacharya, A Tripathi, H Shum
The journal of physical chemistry letters 5 (10), 1691-1700, 2014
262014
Active ciliated surfaces expel model swimmers
H Shum, A Tripathi, JM Yeomans, AC Balazs
Langmuir 29 (41), 12770-12776, 2013
262013
Harnessing surface-bound enzymatic reactions to organize microcapsules in solution
OE Shklyaev, H Shum, A Sen, AC Balazs
Science Advances 2 (3), e1501835, 2016
252016
Entrainment and scattering in microswimmer-colloid interactions
H Shum, JM Yeomans
Physical Review Fluids 2 (11), 113101, 2017
222017
Comment on the article by J. Elgeti, UB Kaupp, and G. Gompper: hydrodynamics of sperm cells near surfaces
DJ Smith, EA Gaffney, H Shum, H Gadęlha, J Kirkman-Brown
Biophysical Journal 100 (9), 2318-2320, 2011
222011
Microswimmer propulsion by two steadily rotating helical flagella
H Shum
Micromachines 10 (1), 65, 2019
212019
Fluid-driven motion of passive cilia enables the layer to expel sticky particles
A Tripathi, H Shum, AC Balazs
Soft matter 10 (9), 1416-1427, 2014
212014
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