Two-dimensional single-cell patterning with one cell per well driven by surface acoustic waves DJ Collins, B Morahan, J Garcia-Bustos, C Doerig, M Plebanski, A Neild Nature communications 6 (1), 8686, 2015 | 583 | 2015 |
The Poisson distribution and beyond: methods for microfluidic droplet production and single cell encapsulation DJ Collins, A Neild, A DeMello, AQ Liu, Y Ai Lab on a Chip 15 (17), 3439-3459, 2015 | 560 | 2015 |
Visible light positioning: A roadmap for international standardization J Armstrong, YA Sekercioglu, A Neild IEEE Communications Magazine 51 (12), 68-73, 2013 | 545 | 2013 |
Monolithically fabricated microgripper with integrated force sensor for manipulating microobjects and biological cells aligned in an ultrasonic field F Beyeler, A Neild, S Oberti, DJ Bell, Y Sun, J Dual, BJ Nelson Journal of microelectromechanical systems 16 (1), 7-15, 2007 | 458 | 2007 |
Position accuracy of time-of-arrival based ranging using visible light with application in indoor localization systems TQ Wang, YA Sekercioglu, A Neild, J Armstrong Journal of Lightwave Technology 31 (20), 3302-3308, 2013 | 334 | 2013 |
Highly focused high-frequency travelling surface acoustic waves (SAW) for rapid single-particle sorting DJ Collins, A Neild, Y Ai Lab on a Chip 16 (3), 471-479, 2016 | 189 | 2016 |
Surface acoustic waves for on-demand production of picoliter droplets and particle encapsulation DJ Collins, T Alan, K Helmerson, A Neild Lab on a Chip 13 (16), 3225-3231, 2013 | 181 | 2013 |
Particle separation using virtual deterministic lateral displacement (vDLD) DJ Collins, T Alan, A Neild Lab on a Chip 14 (9), 1595-1603, 2014 | 180 | 2014 |
Microfluidic on-demand droplet merging using surface acoustic waves M Sesen, T Alan, A Neild Lab on a Chip 14 (17), 3325-3333, 2014 | 168 | 2014 |
Acoustic tweezers via sub–time-of-flight regime surface acoustic waves DJ Collins, C Devendran, Z Ma, JW Ng, A Neild, Y Ai Science advances 2 (7), e1600089, 2016 | 161 | 2016 |
Design, modeling and characterization of microfluidic devices for ultrasonic manipulation A Neild, S Oberti, J Dual Sensors and Actuators B: Chemical 121 (2), 452-461, 2007 | 159 | 2007 |
Manipulation of micrometer sized particles within a micromachined fluidic device to form two-dimensional patterns using ultrasound S Oberti, A Neild, J Dual The Journal of the Acoustical Society of America 121 (2), 778-785, 2007 | 156 | 2007 |
A micro-particle positioning technique combining an ultrasonic manipulator and a microgripper A Neild, S Oberti, F Beyeler, J Dual, BJ Nelson Journal of Micromechanics and Microengineering 16 (8), 1562, 2006 | 136 | 2006 |
Selective particle trapping using an oscillating microbubble P Rogers, A Neild Lab on a Chip 11 (21), 3710-3715, 2011 | 135 | 2011 |
Droplet control technologies for microfluidic high throughput screening (μHTS) M Sesen, T Alan, A Neild Lab on a Chip 17 (14), 2372-2394, 2017 | 130 | 2017 |
Positioning, displacement, and localization of cells using ultrasonic forces A Haake, A Neild, G Radziwill, J Dual Biotechnology and bioengineering 92 (1), 8-14, 2005 | 127 | 2005 |
The importance of travelling wave components in standing surface acoustic wave (SSAW) systems C Devendran, T Albrecht, J Brenker, T Alan, A Neild Lab on a Chip 16 (19), 3756-3766, 2016 | 125 | 2016 |
Droplet-based single cell RNAseq tools: a practical guide R Salomon, D Kaczorowski, F Valdes-Mora, RE Nordon, A Neild, ... Lab on a Chip 19 (10), 1706-1727, 2019 | 114 | 2019 |
Manipulation of cells using an ultrasonic pressure field A Haake, A Neild, DH Kim, JE Ihm, Y Sun, J Dual, BK Ju Ultrasound in medicine & biology 31 (6), 857-864, 2005 | 114 | 2005 |
Separation of particles using acoustic streaming and radiation forces in an open microfluidic channel C Devendran, I Gralinski, A Neild Microfluidics and nanofluidics 17, 879-890, 2014 | 110 | 2014 |