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Publications

Present - 2021

From 2021 I'm updating my publications solely via Google Scholar. Please view these via the link above.

2020

1. C Devendran, K Choi, J Han, Y Ai, A Neild & DJ Collins. Diffraction-based acoustic manipulation in microchannels enables continuous particle and bacteria focusing. Lab on a Chip. Link
2. SJ Raymond, DJ Collins, R O’Rorke, M Tayebi, Y Ai, J Williams. A deep learning approach for designed diffraction-based acoustic patterning in microchannels. Scientific Reports. Link
3. Richard O'Rorke, Andreas Winkler, David J. Collins, Ye Ai. Slowness curve surface acoustic wave transducers for optimized acoustic streaming. RSC Advances. Link
4. Mahnoush Tayebi, Richard O'Rorke, Him Cheng Wong, Hong Yee Low, Jongyoon Han, David J. Collins, Ye Ai. Massively Multiplexed Submicron Particle Patterning in Acoustically Driven Oscillating Nanocavities. Small. Link​

2019

1. David J. Collins, Richard O'Rorke, Adrian Neild, Jongyoon Han, Ye A. Acoustic fields and microfluidic patterning around embedded micro-structures subject to surface acoustic waves. Soft Matter. Link
2. Peixian Li, Zhichao Ma, Yinning Zhou, David J. Collins, Zhenfeng Wang, Ye Ai. Detachable Acoustophoretic System for Fluorescence-Activated Sorting at the Single-Droplet Level. Analytical Chemistry. Link

2018

1. Armaghan Fakhfouri, Citsabehsan Devendran, Thomas Albrecht, David John Collins, Andreas Winkler, Hagen Schmidt, Adrian Neild. Surface acoustic wave diffraction driven mechanisms in microfluidic systems. Lab on a Chip. Link
2. Richard O’Rorke, David J. Collins, Ye Ai. A rapid and meshless analytical model of acoustofluidic pressure fields for waveguide design.
   Biomicrofluidics. Link
3. David J. Collins, Richard O'Rorke, Citsabehsan Devendran, Zhichao Ma, Jongyoon Han, Adrian Neild and Ye Ai. Self-aligned acoustofluidic particle focusing and patterning in microfluidic channels from channel based acoustic waveguides. Physical Review Letters (2018). Link​​ - Featured as Editors suggestion and in News and Commentary

2017

1. Zhichao Ma, Yinning Zhou, David J. Collins, Ye Ai. Fluorescence Activated Cell Sorting via a Focused Traveling Surface Acoustic Beam. Lab on a Chip (2017). Link
2. David J. Collins, Bee Luan Khoo, Zhichao Ma, Andreas Winkler, Robert Weser, Hagen Schmidt, Jongyoon Han, Ye Ai. Selective particle and cell capture in a continuous flow using micro-vortex acoustic streaming. Lab on a Chip (2017). Link
3. Citsabehsan Devendran, David J. Collins*, Ye Ai, Adrian Neild. Huygens-Fresnel acoustic interference and the development of robust time-averaged patterns from traveling surface acoustic waves. Physical Review Letters (2017). *equal primary contribution. Link
4. Jan Rod, David J. Collins, Daniel Wessolek, Thavishi Ilandara, Ye Ai, Hyowon Lee, Suranga Nanayakkara. UTAP-Unique Topographies for Acoustic Propagation: Designing Algortithmic Waveguides for sensing in interactive malleable interfaces. TEI (2017). Link
5. Andreas Winkler, Stefan Harazim, David J. Collins, Raimund Brünig, Hagen Scmidt, Siegfried Menzel. Compact SAW aerosol generator. Biomedical Microdevices (2017). Link
6. Zhichao Ma, David J. Collins and Ye Ai. Single-actuator Bandpass Microparticle Filtration via Traveling Surface Acoustic Waves. Colloid and Interface Science Communications (2017). Link.
7. David J. Collins, Zhichao Ma, Jongyoon Han, Ye Ai. Continuous micro-vortex-based nanoparticle manipulation via focused surface acoustic waves. Lab on a Chip (2017). Link 

2016

1. Zhichao Ma, David J. Collins, Jinhong Guo, and Ye Ai. Mechanical Properties Based Particle Separation via Traveling Surface Acoustic Wave. Analytical Chemistry (2016). Link
2. Jia Wei Ng, David J Collins, Citsabehsan Devendran, Ye Ai, Adrian Neild. Flow-rate-insensitive deterministic particle sorting using a combination of travelling and standing surface acoustic waves. Microfluidics and Nanofluidics (2016). Link
3. Armaghan Fakhfouri, Citsabehsan Devendran, David Collins, Ye Ai and Adrian Neild. Virtual Membrane for Filtration of Particles using Surface Acoustic Waves (SAW). Lab on a Chip (2016). Link
4. David Collins, Citsabehsan Devendran, Zhichao Ma, Jia Wei Ng, Adrian Neild & Ye Ai. Acoustic tweezers via sub–time-of-flight regime surface acoustic waves. Science Advances (2016). Link
5. ​David Collins, Zhichao Ma & Ye Ai. Highly localized acoustic streaming and size-selective sub-micron particle concentration using high frequency microscale focused acoustic fields. Analytical Chemistry (2016). Link
6. Zhichao Ma, David Collins & Ye Ai. A detachable acoustofluidic system for particle separation via a travelling surface acoustic wave. Analytical Chemistry (2016). Link
7. Jason Brenker, David Collins, Hoang Van Phan, Tuncay Alan & Adrian Neild. On-chip droplet production regimes using surface acoustic waves. Lab on a Chip (2016). Link
8. Citsabehsan Devendran, Nipuna Gunasekara, David Collins & Adrian Neild. Batch process particle separation using surface acoustic waves (SAW): integration of travelling and standing SAW. RSC Advances (2016). Link
9. David Collins, Adrian Neild & Ye Ai. Highly focused high-frequency travelling surface acoustic waves (SAW) for rapid single-particle sorting. Lab on a Chip (2016).  Link

2015

1. David Collins, Belinda Morahan, Jose Garcia-Bustos, Christian Doerig, Magdalena Plebanski & Adrian Neild. Two-dimensional single-cell patterning with one cell per well driven by surface acoustic waves. Nature Communications (2015). Link
2. David Collins, Adrian Neild, Andrew deMello, Ai Qun Liu & Ye Ai. The Poisson distribution and beyond: methods for microfluidic droplet production and single cell encapsulation. Lab on a Chip (2015). Link

2014

1. Ninnuja Sivanantha, Charles Ma, David Collins, Muhsincan Sesen, Jason Brenker, Ross Coppel, Adrian Neild & Tuncay Alan. Characterization of adhesive properties of red blood cells using surface acoustic wave induced flows for rapid diagnostics. Applied Physics Letters (2014). Link
2. David Collins, Tuncay Alan & Adrian Neild. The particle valve: On-demand particle trapping, filtering, and release from a microfabricated polydimethylsiloxane membrane using surface acoustic waves. Applied Physics Letters 105 (2014). Link
3. David Collins, Tuncay Alan & Adrian Neild. Particle separation using virtual deterministic lateral displacement (vDLD). Lab on a Chip (2014). Link

2013

1. David Collins, Tuncay Alan, Kris Helmerson & Adrian Neild. Surface acoustic waves for on-demand production of picoliter droplets and particle encapsulation. Lab on a Chip (2013). Link

2012

1. David Collins, Ofer Manor, Andreas Winkler, Hagen Schmidt, James Friend & Leslie Yeo. Atomization off thin water films generated by high-frequency substrate wave vibrations. Physical Review E (2012). Link