David Inglis
David Inglis
Bestätigte E-Mail-Adresse bei mq.edu.au - Startseite
Zitiert von
Zitiert von
Deterministic hydrodynamics: taking blood apart
JA Davis, DW Inglis, KJ Morton, DA Lawrence, LR Huang, SY Chou, ...
Proceedings of the National Academy of Sciences 103 (40), 14779-14784, 2006
Continuous microfluidic immunomagnetic cell separation
DW Inglis, R Riehn, RH Austin, JC Sturm
Applied Physics Letters 85 (21), 5093-5095, 2004
Critical particle size for fractionation by deterministic lateral displacement
DW Inglis, JA Davis, RH Austin, JC Sturm
Lab on a Chip 6 (5), 655-658, 2006
Five‐nanometer diamond with luminescent nitrogen‐vacancy defect centers
BR Smith, DW Inglis, B Sandnes, JR Rabeau, AV Zvyagin, D Gruber, ...
small 5 (14), 1649-1653, 2009
Microfluidic high gradient magnetic cell separation
DW Inglis, R Riehn, JC Sturm, RH Austin
Journal of Applied Physics 99 (8), 08K101, 2006
Crossing microfluidic streamlines to lyse, label and wash cells
KJ Morton, K Loutherback, DW Inglis, OK Tsui, JC Sturm, SY Chou, ...
Lab on a Chip 8 (9), 1448-1453, 2008
Hydrodynamic metamaterials: Microfabricated arrays to steer, refract, and focus streams of biomaterials
KJ Morton, K Loutherback, DW Inglis, OK Tsui, JC Sturm, SY Chou, ...
Proceedings of the National Academy of Sciences 105 (21), 7434-7438, 2008
Efficient microfluidic particle separation arrays
DW Inglis
Applied Physics Letters 94 (1), 013510, 2009
Apparatus and method for continuous particle separation
DW Inglis, J Davis, R Austin, J Sturm
US Patent 7,735,652, 2010
Scaling deterministic lateral displacement arrays for high throughput and dilution-free enrichment of leukocytes
DW Inglis, M Lord, RE Nordon
Journal of Micromechanics and Microengineering 21 (5), 054024, 2011
Microfluidic device for label-free measurement of platelet activation
DW Inglis, KJ Morton, JA Davis, TJ Zieziulewicz, DA Lawrence, RH Austin, ...
Lab on a Chip 8 (6), 925-931, 2008
Highly accurate deterministic lateral displacement device and its application to purification of fungal spores
DW Inglis, N Herman, G Vesey
Biomicrofluidics 4 (2), 024109, 2010
Simultaneous concentration and separation of proteins in a nanochannel
DW Inglis, EM Goldys, NP Calander
Angewandte Chemie International Edition 50 (33), 7546-7550, 2011
Determining blood cell size using microfluidic hydrodynamics
DW Inglis, JA Davis, TJ Zieziulewicz, DA Lawrence, RH Austin, JC Sturm
Journal of immunological methods 329 (1-2), 151-156, 2008
A method for reducing pressure-induced deformation in silicone microfluidics
DW Inglis
Biomicrofluidics 4 (2), 026504, 2010
Quantitative non-invasive cell characterisation and discrimination based on multispectral autofluorescence features
ME Gosnell, AG Anwer, SB Mahbub, SM Perinchery, DW Inglis, ...
Scientific reports 6 (1), 1-11, 2016
Visible 532 nm laser irradiation of human adipose tissue‐derived stem cells: effect on proliferation rates, mitochondria membrane potential and autofluorescence
AG Anwer, ME Gosnell, SM Perinchery, DW Inglis, EM Goldys
Lasers in surgery and medicine 44 (9), 769-778, 2012
3D printed mould-based graphite/PDMS sensor for low-force applications
A Nag, S Feng, SC Mukhopadhyay, J Kosel, D Inglis
Sensors and Actuators A: Physical 280, 525-534, 2018
Focusing of sub-micrometer particles in microfluidic devices
T Zhang, ZY Hong, SY Tang, W Li, DW Inglis, Y Hosokawa, Y Yalikun, ...
Lab on a Chip 20 (1), 35-53, 2020
Anisotropic permeability in deterministic lateral displacement arrays
R Vernekar, T Krüger, K Loutherback, K Morton, DW Inglis
Lab on a Chip 17 (19), 3318-3330, 2017
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