Thomas Laurell
TitleCited byYear
Chip integrated strategies for acoustic separation and manipulation of cells and particles
T Laurell, F Petersson, A Nilsson
Chemical Society Reviews 36 (3), 492-506, 2007
Free flow acoustophoresis: microfluidic-based mode of particle and cell separation
F Petersson, L Åberg, AM Swärd-Nilsson, T Laurell
Analytical chemistry 79 (14), 5117-5123, 2007
Review of cell and particle trapping in microfluidic systems
J Nilsson, M Evander, B Hammarström, T Laurell
Analytica chimica acta 649 (2), 141-157, 2009
Continuous separation of cells and particles in microfluidic systems
A Lenshof, T Laurell
Chemical Society Reviews 39 (3), 1203-1217, 2010
Acoustic control of suspended particles in micro fluidic chips
A Nilsson, F Petersson, H Jönsson, T Laurell
Lab on a Chip 4 (2), 131-135, 2004
Continuous separation of lipid particles from erythrocytes by means of laminar flow and acoustic standing wave forces
F Petersson, A Nilsson, C Holm, H Jönsson, T Laurell
Lab on a Chip 5 (1), 20-22, 2005
Microfluidic enzyme immunoassay using silicon microchip with immobilized antibodies and chemiluminescence detection
J Yakovleva, R Davidsson, A Lobanova, M Bengtsson, S Eremin, ...
Analytical chemistry 74 (13), 2994-3004, 2002
Separation of lipids from blood utilizing ultrasonic standing waves in microfluidic channels
F Petersson, A Nilsson, C Holm, H Jönsson, T Laurell
Analyst 129 (10), 938-943, 2004
Integrated microanalytical technology enabling rapid and automated protein identification
S Ekström, P Önnerfjord, J Nilsson, M Bengtsson, T Laurell, ...
Analytical chemistry 72 (2), 286-293, 2000
Noninvasive acoustic cell trapping in a microfluidic perfusion system for online bioassays
M Evander, L Johansson, T Lilliehorn, J Piskur, M Lindvall, S Johansson, ...
Analytical chemistry 79 (7), 2984-2991, 2007
Acoustofluidics 8: Applications of acoustophoresis in continuous flow microsystems
A Lenshof, C Magnusson, T Laurell
Lab on a Chip 12 (7), 1210-1223, 2012
Porous silicon as the carrier matrix in microstructured enzyme reactors yielding high enzyme activities
J Drott, K Lindström, L Rosengren, T Laurell
Journal of micromechanics and microengineering 7 (1), 14, 1997
Microfluidic, label-free enrichment of prostate cancer cells in blood based on acoustophoresis
P Augustsson, C Magnusson, M Nordin, H Lilja, T Laurell
Analytical chemistry 84 (18), 7954-7962, 2012
Measuring the local pressure amplitude in microchannel acoustophoresis
R Barnkob, P Augustsson, T Laurell, H Bruus
Lab on a Chip 10 (5), 563-570, 2010
Carrier medium exchange through ultrasonic particle switching in microfluidic channels
F Petersson, A Nilsson, H Jönsson, T Laurell
Analytical chemistry 77 (5), 1216-1221, 2005
Trapping of microparticles in the near field of an ultrasonic transducer
T Lilliehorn, U Simu, M Nilsson, M Almqvist, T Stepinski, T Laurell, ...
Ultrasonics 43 (5), 293-303, 2005
Homogeneous sample preparation for automated high throughput analysis with matrix‐assisted laser desorption/ionisation time‐of‐flight mass spectrometry
P Önnerfjord, S Ekström, J Bergquist, J Nilsson, T Laurell, G Marko‐Varga
Rapid communications in mass spectrometry 13 (5), 315-322, 1999
Design and development of a silicon microfabricated flow-through dispenser for on-line picolitre sample handling
T Laurell, L Wallman, J Nilsson
Journal of Micromechanics and Microengineering 9 (4), 369, 1999
Acoustic whole blood plasmapheresis chip for prostate specific antigen microarray diagnostics
A Lenshof, A Ahmad-Tajudin, K Jarås, AM Sward-Nilsson, L Åberg, ...
Analytical chemistry 81 (15), 6030-6037, 2009
Enhanced enzyme activity in silicon integrated enzyme reactors utilizing porous silicon as the coupling matrix
T Laurell, J Drott, L Rosengren, K Lindström
Sensors and Actuators B: Chemical 31 (3), 161-166, 1996
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