top of page

Publications List 

Peer-Reviewed Papers 

Papers
578 citations in total, h index = 9
 
  1. Continuous high viscosity biphasic liquid separation, Separation and Purification Technology, Volume 343, 6 September 2024, 127111.
  2. Machine Learning for Two-Phase Flow Separation in a Liquid–Liquid Interface Manipulation Separator, ACS Appl. Mater. Interfaces, 2023, 15, 9, 12473–12484. 
  3. Innovative water-based dynamic liquid bubble membrane generation device for gas/vapour separation, Chemical Engineering Journal, Volume 450, Part 3, 15 December 2022, 138233
  4. Continuous Low Surface Tension and High Viscosity Two Phases Liquid Separation, Sensors and Actuators B: Chemical, Volume 365, 15 August 2022, 131957.
  5. An affordable and tunable continuous wrinkle micropattern for cell physical guidance study, Journal of the Taiwan Institute of Chemical Engineers, Volume 126, September 2021, Pages 288-296
  6. Scale-Out Production in Core-Annular Liquid–Liquid Microextractor, Journal of Flow Chemistry, 11(3), 569-577, 2021.
  7. Development of real-time transendothelial electrical resistance monitoring for an in vitro blood-brain barrier system, Micromachines, 12(1), 37; 2021.
  8. A Core-Annular Liquid-Liquid Microextractor for Continuous Processing, Chemical Engineering Journal, Volume 405, 1 February 2021, 126677
  9. Sol–Gel-Derived Hierarchically Wrinkled Mesoporous Ceramics for Cell Alignment, Chemical Engineering Journal, Volume 405, 1 February 2021, 126572. 
  10. Hydrodynamic Snaring Array for Trapping and Perfusion Culture of Single Cell, Sensors and Actuators B: Chemical, 2020, 312, 127966
  11. Bioinspired Durable Superhydrophobic Surface from a Hierarchically Wrinkled Nanoporous Polymer, ACS Appl. Mater. Interfaces, 2019.11(43), 40875-40885, 10.1021/acsami.9b14325.
  12. Bio-O-Pump: A Novel Portable Microfluidic Device Driven by Osmotic Pressure, Sensors and Actuators B: Chemical, 2019, 284, 736-743. 
  13. Whole cell microfluidic quenched flow analysis , Analytical Chemistry, 2013, 85(23), 11560–11567.
  14. Preparation of Neuronal Co-cultures with Single Cell Precision, J. Vis. Exp. (87), 2014, e51389, doi:10.3791/51389.
  15. Ultrafast cell switching for recording cell surface transitions: new insights into epidermal growth factor receptor signalling , Lab on a Chip, 2013, 13 (6), 1031–1034.
  16. Microfluidic construction of minimalistic neuronal co-cultures, Lab on a Chip, 2013, 13 (7), 1402–1412.
  17. Microarrays for the scalable production of metabolically-relevant tumour spheroids: A tool for modulating chemosensitivity traits , Lab on a Chip, 2011, 11(3), 419–428.
  18. A microfluidic array with cellular valving for single cell co-culture , Lab on a Chip, 2011, 11(2), 231–237.
  19. RFICs on polydimethylsiloxane for flexible electronics applications, Electronics Letters, 2007 Nov. 8, 43(23), 1276–1277.
 

Books

Books
A book and a book chapter published in electronic and print format.
 
  1. Bridging Two Cultures: Minimalistic Networks Prepared by Microfluidic Arraying, and
    Open Access Compartments for Electrophysiology, in “Microfluidic and
    Compartmentalized Platforms for Neurobiological Research”, Springer Science, ed. E.
    Biffi, ISBN 978-1-4939-2510-0. 
  2. Development of a Microfluidic Switching Platform for the Temporal Investigation of
    Membrane Receptor Signal Transductions, ISBN: 978-3843916622
Proceedings of International Conferences

Proceedings of International Conferences

(Talks and Oral presentations)

  1. ......
  2. “Using Microfluidics Devices for Downstream Bioprocess Characterisation”, in Proceedings of 251st American Chemical Society (ACS2016) National Meeting & Exposition, San Diego, California, USA, 13–17, March, 2016.
  3. “Pillar-enhanced liquid-liquid extraction with on-line monitoring for continuous purification of pharmaceutical compounds at microscale”, in Proceedings of NanoBioTech2015, Montreux, Switzerland, 16–18, November, 2015.
  4. “Micropillar-based aqueous-organic continuous liquid-liquid extraction device”, in Proceedings of μTAS2015, the 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Gyeongju, Korea, 25–29 October, 2015.
  5. “Towards the use of micro-toolboxes for downstream bioprocess characterization”, in Proceedings of IMTB2015, the 3rd International Conference Implementation of Microreactor Technology in Biotechnology, Opatija, Croatia, 10– 13 May 2015.
  6. “Recording signal transduction dynamics with unprecedented temporal resolution”, in Proceedings of μTAS2012, the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Okinawa, Japan, 28 October to 1 November, 2012.
  7. “A microfluidic method for the analysis of early signal transduction events with high temporal resolution”, in Proceedings of NanoBioTech2011, Montreux, Switzerland, 14–16, November, 2011.
  8. “Spatially standardized cell biology”, Royal Society of Chemistry Analytical Research Forum, Loughborough, UK, 26–28 July 2010.
  9. “Micro fluidic shear stress stimulates human stem cell differentiation into endothelial cells”, in Proceedings of CTAM2009, the 33th National Conference on Theoretical and Applied Mechanics, Miaoli City, Taiwan, 13–14 Nov., 2009.
  10. “Amniotic fluid stem cell differentiation into endothelial cells by microfluidic shear stresses”, in Proceedings of IEEENANOMED2009, IEEE International Conference on Nano/Molecular Medicine and Engineering, Taiwan, 18–21 October, 2009.
  11. “Microfluidic shear stress effects on migration and orientation of human umbilical vein endothelial cells”, in Proceedings of NMC2009, the 13th Nano and Microsystems Technology Conference, Taiwan, 9–10 July, 2009.
  12. “Manipulation, Isolation, Culturing and Real-time Monitoring of Single Human Bone Marroe Stem Cells”, in Proceedings of APCOT 2008, the 4th Asia-Pacific Conference of Transducers and Micro-Nano Technology, Tainan, Taiwan, 22–25 June, 2008.
  13. “The Development of Single Stem Cell Culturing and Monitoring Platform”, NMC 2007, the 11th Nano and Microsystems Technology Conference, Taichung, Taiwan, 30–31 August, 2007.
     

Posters (listing only international conferences)

Posters
  1. ....
  2. ESBES 2016, European Symposium on Biochemical Engineering Sciences, Dublin, Ireland, 11–14 September, 2016.
  3. μTAS2016, the 20th International Conference on Miniaturized Systems for Chemistry andLife Sciences, Dublin, Ireland, 9–13 October, 2016.
  4. SCS Fall Meeting 2015, Fall Meeting of the Swiss Chemical Society, EPFL Lausanne, Switzerland, 4 September, 2015
  5. μTAS 2015, 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Gyeongju, Korea, 25–29 October, 2015.
  6. IMTB 2015, 3rd International Conference Implementation of Microreactor Technology in Biotechnology, Opatija, Croatia, 10–13 May, 2015.
  7. BEC 2014, Bioprocess Engineering Course, Croatia, 21–27 September, 2014.
  8. 10th ESBES and 6th IFIBiop, 10th European Symposium on Biochemical Engineering Sciences and 6th International Forum on Industrial Bioprocesses, Lille, France, 7–10 September, 2014
  9. MECP14, 3rd Multistep Enzyme Catalyzed Processes Congress, Madrid, Spain, 7–10 April, 2014
  10. Marktplatz bio.Dortmund 2013 Conference, Germany, 22 October, 2013.
  11. NanoBioTech 2013, Montreux, Switzerland, 17–19 November, 2013.
  12. NanoBioTech 2011, Montreux, Switzerland, 14–16 November, 2011.
  13. Two posters are presented in MMB 2011, 6th IEEE International Conference on Microtechnologies in Medicine and Biology, Lucerne, Switzerland, 4–6 May, 2011.
  14. Two posters are presented in NanoBioTech 2010, Montreux, Switzerland, 15–17 November, 2010.
  15. μTAS 2010, 14th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Groningen, Netherlands, 3–7 October, 2010.
  16. μTAS 2009, 13th International Conference on Miniaturized Systems for Chemistry and Life Sciences, Jeju Island, Korea, 1–5 November, 2009.
  17. MMB 2009, 5th IEEE International Conference on Microtechnologies in Medicine and Biology, Montréal, Canada, 1–3 April, 2009.
Need more details? Contact us

We are here to assist. Contact us by phone, email or via our Social Media channels.

bottom of page