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FEATURED COVER ARTICLES


2016, vol. 113, no. 16

2015, vol. 36, no. 15

2014, vol. 14, no. 18 (back)

2013, vol. 34, no. 13

2011, vol. 11, no. 13

Cover Articles | Journal Publications | REPository

PUBLICATIONS

A Mishra, TR Maltais, TM Walter, A Wei, SJ Williams , and ST Wereley, "Trapping and viability of swimming bacteria in an optoelectric trap,"Lab on a Chip , 16, 1039-1046 (2016).

http://dx.doi.org/10.1038/micronano.2016.5

A Mishra, K Clayton, V Velasco, SJ Williams , and ST Wereley, "Dynamic optoelectric trapping and deposition of multiwalled carbon nanotubes," Microsystems & Nanoengineering , 2, 16005 (2016).

http://dx.doi.org/10.1039/c5lc01559f

V Velasco, M Gruenthal, E Zusstone, JMD Thomas, RS Keynton, RE Berson, and SJ Williams , "An orbital shear platform for in vitro real-time endothelium characterization," Biotechnology and Bioengineering 113, 1336-1344 (2016).

http://dx.doi.org/10.1002/bit.25893

A Mishra, J Khor, KN Clayton, SJ Williams, X Pan, T Kinzer-Ursem, and ST Wereley, "Optoelectric patterning: Effect of electrode material and thickness on laser-induced AC electrothermal flow," Electrophoresis , 37, 658-665 (2016).

http://dx.doi.org/10.1002/elps.201500473

AH Work, Jr., and SJ Williams , "Characterization of 2D colloid aggregations created by optically-induced electrohydrodynamics," Electrophoresis , 36, 1674-1680 (2015).

http://dx.doi.org/10.1039/c5sm00184f

SJ Williams and NG Green, "Electrothermal pumping with interdigitated electrodes and resistive heaters," Electrophoresis , 36, 1681-1689 (2015).

http://dx.doi.org/10.1002/elps.201500112

AH Work, Jr., and SJ Williams , "Characterization of 2D colloids assembled by optically-induced electrohydrodynamics," Soft Matter , 11, 4266-4272 (2015).

http://dx.doi.org/10.1002/elps.201500111

SJ Williams , N Romero, L Parkes, DJ Jackson, and JF Naber, "Demonstration of inexpensive three-dimensional dielectrophoretic microfluidic devices using milled copperclad substrates," Journal of Electrostatics , 75, 49-53 (2015).

http://dx.doi.org/10.1016/j.elstat.2015.02.003

K-C Wang, A Kumar, SJ Williams , NG Green, KC Kim, and H-S Chuang, "An optoelectrokinetic technique for programmable particle manipulation and bead-based biosignal enhancement," Lab on a Chip , 14, 3958-3967 (2014).

http://dx.doi.org/10.1039/c4lc00661e

NR Wood, AI Wolsiefer, RW Cohn, and SJ Williams , "Dielectrophoretic trapping of nanoparticles with an electrokinetic nanoprobe," Electrophoresis , 34, 1922-1931 (2013).

http://dx.doi.org/10.1002/elps.201300004

SJ Williams , "Enhanced electrothermal pumping with thin film resistive heaters," Electrophoresis , 34, 1400-1408 (2013).

http://dx.doi.org/10.1002/elps.201200377

V Velasco and SJ Williams , "Electrokinetic concentration, patterning, and sorting of colloids with thin film heaters," J. Colloid and Interface Science , 394, 598-603 (2013).

http://dx.doi.org/10.1016/j.jcis.2012.11.066

V Velasco, AH Work, Jr., and SJ Williams , "Electrokinetic concentration and patterning of colloids with a scanning laser," Electrophoresis , 33(13), 1931-1937 (2012).

http://dx.doi.org/10.1002/elps.201100676

A Kumar, SJ Williams , H-S Chuang, NG Green, and ST Wereley, "Hybrid opto-electric manipulation in microfluidics - opportunities and challengeseen, and ST Wereley," Lab on a Chip , 11, 2135-2148 (2011).

http://dx.doi.org/10.1039/c1lc20208a

A Kumar, C Cierpka, SJ Williams , CJ Kahler, and ST Wereley, "3D3C velocimetry measurements of an electrothermal microvortex using wavefront deformation PTV and a single camera," Microfluidics and Nanofluidics, 10, 355-365 (2011).

http://dx.doi.org/10.1007/s10404-010-0674-4

A Kumar, JS Kwon, SJ Williams , NG Green, N Yip, and ST Wereley, "Optically modulated electrokinetic manipulation and concentration of colloidal particles near an electrode surface," Langmuir , 26, 5262-5272 (2010).

http://dx.doi.org/10.1021/la904661y

SJ Williams, C Park, and ST Wereley, "Advances and applications on microfluidic velocimetry techniques," Microfluidics and Nanofluidics , 8, 709-726 (2010).

http://dx.doi.org/10.1007/s10404-010-0588-1

SJ Williams, P Chamarthy, and ST Wereley, "Comparison of experiments and simulation of Joule heating in AC electrokinetic chips," Journal of Fluids Engineering, 132, 021103 (2010).

http://dx.doi.org/10.1115/1.4000740

SJ Williams, A Kumar, NG Green, and ST Wereley, "Optically induced electrokinetic concentration and separation of colloids," Journal of Micromechanics and Microengineering, 20, 015022 (2010).

http://dx.doi.org/10.1088/0960-1317/20/1/015022

SJ Williams, A Kumar, NG Green, and ST Wereley, "A simple, optically induced electrokinetic method to concentrate and pattern nanoparticles," Nanoscale , 1, 133-137 (2009).

http://dx.doi.org/10.1039/b9nr00033j

A Kumar, SJ Williams, and ST Wereley, "Experiments on opto-electrically generated vortices," Microfluidics and Nanofluidics , 6, 637-646 (2009).

http://dx.doi.org/10.1007/s10404-008-0339-8

SJ Williams, A Kumar, and ST Wereley, "Electrokinetic patterning of colloidal particles with optical landscapes," Lab on a Chip , 8, 1879-1882 (2008).

http://dx.doi.org/10.1039/b810787d

Cover Articles | Journal Publications | REPository

REPository

The following are all published journal articles that feature Rapid Electrokinetic Patterning (REP), a technique developed and first published by Dr. Williams and his team. This collection is meant to showcase all ongoing work that uses REP for particle manipuatlion in hopes that this technique can be adopted by other researchers. Please contact me if there is a work missing from this list! Dr. Williams will gladly assist and collaborate with any researcher who is interested in adopting REP.

  1. J-C Wang, H-Y Ku, T-S Chen, H-S Chuang, "Detection of low-abundance biomarker lipocalin 1 for diabetic retinopathy using optoelectrokinetic bead-based immunosensing," Biosensors and Bioelectronics 89, 701-709 (2017). [Link]
  2. A Mishra, TR Maltais, TM Walter, A Wei, SJ Williams , and ST Wereley, "Trapping and viability of swimming bacteria in an optoelectric trap," Lab on a Chip , 16, 1039-1046 (2016). [Link]
  3. A Mishra, K Clayton, V Velasco, SJ Williams , and ST Wereley, "Dynamic optoelectric trapping and deposition of multiwalled carbon nanotubes," Microsystems & Nanoengineering , 2, 16005 (2016). [Link]
  4. A Mishra, J Khor, KN Clayton, SJ Williams, X Pan, T Kinzer-Ursem, and ST Wereley, "Optoelectric patterning: Effect of electrode material and thickness on laser-induced AC electrothermal flow," Electrophoresis , 37, 658-665 (2016). [Link]
  5. J-C Wang, H-Y Ku, D-B Shiej, and H-S Chuang, "A bead-based fluorescence immunosensing technique enabled by the integration of Forster resonance energy transfer and optoelectrokinetic concentration," Biomicrofluidics, 10, 014113 (2016). [Link]
  6. JC Ndukaife, AV Kildishev, AGA Nnanna, VM Shalaev, ST Wereley, and A Boltasseva, "Long-range and rapid transport of individual nano-objects by a hybrid electrothermalplasmonic nanotweezer," Nature Nanotechnology, 11, 53-59 (2016). [Link]
  7. D Kim, J Shim, H-S Chuang, KC Kim, "Numerical simulation on the optoelectro-kinetic patterning for rapid concentration of particles in a microchannel," Biomicrofluidics (2015). [Link]
  8. AH Work, Jr., and SJ Williams , "Characterization of 2D colloid aggregations created by optically-induced electrohydrodynamics," Electrophoresis , 36, 1674-1680 (2015). [Link]
  9. AH Work, Jr., and SJ Williams , "Characterization of 2D colloids assembled by optically-induced electrohydrodynamics," Soft Matter , 11, 4266-4272 (2015). [Link]
  10. A Mishra, JS Kwon, R Thakur, and ST Wereley, "Optoelectrical microfluidics as a promising tool in biology," Trends in Biotechnology (2014). [Link]
  11. JC Ndukaife, A Mishra, U Guler, AGA Nnanna, ST Wereley, and A Boltasseva, "Photothermal heating enabled by plasmonic nanostructures for electrokinetic manipulation and sorting of particles," ACS Nano (2014). [Link]
  12. K-C Wang, A Kumar, SJ Williams , NG Green, KC Kim, and H-S Chuang, "An optoelectrokinetic technique for programmable particle manipulation and bead-based biosignal enhancement," Lab on a Chip, 14, 3958-3967 (2014). [Link]
  13. V Velasco and SJ Williams , "Electrokinetic concentration, patterning, and sorting of colloids with thin film heaters," J. Colloid and Interface Science , 394, 598-603 (2013). [Link]
  14. J-S Kwon and ST Wereley, "Towards new methodologies for manipulation of colloidal particles in a miniaturized fluidic device: optoelectrokinetic manipulation technique," Journal of Fluids Engineering, 135, 021306 (2013). [Link]
  15. V Velasco, AH Work, Jr., and SJ Williams , "Electrokinetic concentration and patterning of colloids with a scanning laser," Electrophoresis , 33(13), 1931-1937 (2012). [Link]
  16. J-S Kwon, SP Ravindranath, A Kumar, J Irudayaraj, and ST Wereley, "Opto-electrokinetic manipulation for high-performance on-chip bioassays," Lab on a Chip, 4955-4959 (2012). [Link]
  17. A Kumar, SJ Williams , H-S Chuang, NG Green, and ST Wereley, "Hybrid opto-electric manipulation in microfluidics - opportunities and challenges," Lab on a Chip, 11, 2135-2148 (2011). [Link]
  18. A Kumar, JS Kwon, SJ Williams , NG Green, N Yip, and ST Wereley, "Optically modulated electrokinetic manipulation and concentration of colloidal particles near an electrode surface," Langmuir , 26, 5262-5272 (2010). [Link]
  19. A Kumar, HS Chuang, ST Wereley, "Dynamic manipulation by light and electric fields: micrometer particles to microliter droples," Langmuir (2010). [Link]
  20. SJ Williams, A Kumar, NG Green, and ST Wereley, "Optically induced electrokinetic concentration and separation of colloids," Journal of Micromechanics and Microengineering, 20, 015022 (2010). [Link]
  21. SJ Williams, A Kumar, NG Green, and ST Wereley, "A simple, optically induced electrokinetic method to concentrate and pattern nanoparticles," Nanoscale , 1, 133-137 (2009). [Link]
  22. SJ Williams, A Kumar, and ST Wereley, "Electrokinetic patterning of colloidal particles with optical landscapes," Lab on a Chip , 8, 1879-1882 (2008). [Link]

Cover Articles | Journal Publications | REPository