Publications
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Refereed Journals
[24] M Gholinejad, AJ Moghadam, D.-T. Phan, AK Miri, SAM Shaegh. Design and application of ion concentration polarization for preconcentrating charged analytes. Physics of Fluids, 33, 051301 (2021). DOI: 10.1063/5.0038914.
[23] D.-H. Choi, M. Gonzales, G.B. Kitchen, D.-T. Phan, Peter C. Searson. A Capacitive Sweat Rate Sensor for Continuous and Real-Time Monitoring of Sweat Loss. ACS Sensors, 2020, 5, 12, 3821–3826. DOI: 10.1021/acssensors.0c01219.
[22] N.-D. Dinh, M. Kukumberg, A.-T. Nguyen, H. Keramati, S. Guo, D.-T. Phan, ..., C.-H. Chen. Functional reservoir microcapsules generated via microfluidic fabrication for long-term cardiovascular therapeutics. Lab on a Chip, 20 (15), 2756-2764 (2020). DOI: 10.1039/D0LC00296H. PDF
[21] T. K. Perera,* D.-T. Phan,* S. Pudasaini, Y. Liu, C. Yang. Enhanced sample pre-concentration by ion concentration polarization on a paraffin coated converging microfluidic paper based analytical platform. Biomicrofluidics, 14 (1), 014103 (2020). (* authors contributed equally). DOI: 10.1063/1.5133946. PDF
[20] T. K. Perera, S. Pudasaini, S.S.U Ahmed, D.-T. Phan, Y. Liu, C. Yang. Rapid Pre-Concentration of Escherichia coli in a Microfluidic Paper-based Device using Ion Concentration Polarization. Electrophoresis, 41 (10-11), 867-874 (2020). DOI: 10.1002/elps.201900303. PDF
[19] M.N. Hsu, S.-C.Wei, D.-T. Phan, Y. Zhang, C.-H. Chen. Nano-in-Micro Smart Hydrogel Composite for a Rapid Sensitive Immunoassay. Advanced Healthcare Materials, 2019. DOI: 10.1002/adhm.201801277. PDF
[18] M.N. Hsu, S.-C.Wei, S. Guo, D.-T. Phan, Y. Zhang, C.-H. Chen. Smart hydrogel microfluidics for single-cell multiplexed secretomic analysis with high sensitivity. Small, 2018. DOI: 10.1002/smll.201802918. PDF
[17] S. Wustoni, D.-T. Phan. Sustainable synthesis of gold nanorods assisted by cubic-shaped seeds as intermediate particles. Inorganic Chemistry Communications, Vol. 93, pp. 78-82, 2018. DOI: 10.1016/j.inoche.2018.05.014. PDF
[16] S. Guo, W.N. Lin, Y. Hu, G.Y. Sun, D.-T. Phan, C.-H. Chen. Ultrahigh-throughput Droplet Microfluidic Device for Single-cell miRNA Detection with Isothermal Amplification. Lab on a Chip, 2018, DOI: 10.1039/C8LC00390D. PDF
[15] D.-T. Phan, L. Jin, S. Wustoni, C.-H. Chen. Buffer-free integrative nanofluidic device for real-time continuous ow bioassays by ion concentration polarization. Lab on a Chip, Vol. 18, No. 4 (2018). DOI: 10.1039/C7LC01066D. Featured as the Outside Front Cover. Under themed collection: Lab on a Chip Emerging Investigators. PDF
[14] S. Guo, G. Kang, D.-T. Phan, M. N. Hsu; P. Y. Chen, C.-H. Chen. Polymerization-induced phase separation formation of structured hydrogel particles via microfluidics for scar therapeutics. Scientific Reports, Vol. 8, 2245 (2018). DOI: 10.1038/s41598-018-20516-9. PDF
[13] N. Liu, J. Xu, H. An, D.-T. Phan, M. Hashimoto, W. S. Lew. Direct spraying method for fabrication of paper-based microfluidic devices. Journal of Micromechanics and Microengineering, Vol. 27, No. 10, 104001 (2017). DOI: 10.1088/1361-6439/aa82ce. PDF
[12] N. Liu, D.-T. Phan, and W. S. Lew. An enclosed paper microfluidic chip as a sample preconcentrator based on ion concentration polarization. IEEE Transactions on Biomedical Circuits and Systems, Vol. 11, No. 6, 1392 (2017). DOI: 10.1109/TBCAS.2017.2727064. PDF
[11] D. Das, D.-T. Phan, Y. Zhao, Y. Kang, V. Chan and C. Yang. A multi-module microfluidic platform for continuous preconcentration of water-soluble ions and separation of oil droplets from oil-in-water (O/W) emulsions using a positive DC-biased AC electrokinetic technique. Electrophoresis, Vol. 38, No. 5, 645 (2017). DOI: 10.1002/elps.201600477. PDF
[10] M. Hejazian, D.-T. Phan, N.-T. Nguyen. Mass transport improvement in microscale using diluted ferrofluid and a non-uniform magnetic field. RSC Advances, Vol. 6, No. 67, 62439 (2016). DOI: 10.1039/C6RA11703A. PDF
[9] T.C. Dang, Y. Yin, Y. Yu, D.-T. Phan, C. Yang, B. Cao, H. Song and Y. Kang. A Membrane-free microfluidic microbial fuel cell for rapid characterization of exoelectrogenic bacteria. Microfluidics and Nanofluidics, 20, 144 (2016). DOI: 10.1007/s10404-016-1811-5. PDF
[8] D.-T. Phan, S. A. M. Shaegh, C. Yang, N.-T. Nguyen. Sample concentration in a micro paper-based analytical device using ion concentration polarization. Sensors and Actuators B: Chemical, 222, 735 (2016). DOI: 10.1016/j.snb.2015.08.127. PDF
[7] D.-T. Phan, C. Yang, N.-T. Nguyen. Fabrication of nanoporous junctions using off-the-shelf Nafion membrane. Journal of Micromechanics and Microengineering, 25, 115019 (2015). DOI: 10.1088/0960-1317/25/11/115019. PDF
[6] D.-T. Phan, C. Yang, N.-T. Nguyen. Continuous-flow droplet-based concentrator using ion concentration polarization. RSC Advances, Vol. 5, No. 55, 44336 (2015). DOI: 10.1039/C5RA07491F. PDF
[5] D.-T. Phan, N.-T. Nguyen. Self-triggering regime for synchronized formation of two droplets. Applied Physics Letters, Vol. 104, No. 8, 084104 (2014). DOI: 10.1063/1.4866970. PDF
[4] N.-T. Nguyen, S. A. M. Shaegh, N. Kashaninejad, D.-T. Phan. Design, fabrication and characterization of drug delivery systems based on lab-on-a-chip technology. Advanced Drug Delivery Reviews, Vol. 65, No. 11-12, 1403 (2013). DOI: 10.1016/j.addr.2013.05.008. PDF
[3] D.-T. Phan, T.-N. Nguyen, T.-B. Nguyen. A novel design of specialized sheet forming machine by ISF technology. Journal of Science and Technology Development - VNU-HCM, ISSN: 1859-0128, Vol. 5, pp. 50 - 55 (2010).
[2] D.-T. Phan,* T.-B. Nguyen, K.-D. Le, H.-P. Pham. Application of ISF technology in manufacture of car part models. Journal of Science and Technology Development - VNU-HCM, ISSN: 1859-0128, Vol. 10, pp. 103 - 110 (2010). (* denotes corresponding author)
[1] D.-T. Phan, T.-N. Nguyen. Research on forming angles of A1050-H14 aluminum material processed by SPIF technology. Journal of Science and Technology Development - VNU-HCM, ISSN: 1859-0128, Vol. 12, pp. 72-79 (2009). PDF
Under Peer-review/Submission
[4] N.-D. Dinh, D.-T. Phan. High Throughput Separation of Cells Achieved Through the Particle Characteristic Dielectrophoretic Response and Further Focusing. Submitted to arXiv preprint, arXiv:2008.13019, 2020.
[3] D.-T. Phan, H. Yu, T. Tran. Vibration-induced actuation of droplets on microstructured surfaces. Submitted to arXiv preprint, arXiv:2009.04000, 2020.
[2] D.-H. Choi, M. Gonzales, G. B. Kitchen, D.-T. Phan, P. C. Searson. A Capacitive Sweat Rate Sensor for Continuous and Real-Time Monitoring of Sweat Loss. ACS Sensors. (in revision)
[1] D.-T. Phan, L. Jin, K. K. Zeming, S. Guo and C.-H. Chen. Buffer-free continuous-flow biosensors for real-time monitoring of small biomolecules in live animals by ion concentration polarization. (in submission)
Conference
[9] D.-T. Phan, K. K. Zeming, M. L. S. Wan, L. Jin, N.-D. Dinh and C. H. Chen. Integrative wireless device for remote continuous blood biomarker monitoring. The 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2020), accepted for online poster presentation.
[8] D.-T. Phan, L. Jin, K. K. Zeming, S. Guo and C. H. Chen. Buffer-free continuous-flow biosensors for real-time monitoring of small biomolecules in human biofluids by ion concentration polarization. The 22nd International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2018), Kaohsiung, Taiwan, Nov 11 - 15, 2018. PDF
[7] D.-T. Phan, L. Jin, K. K. Zeming, T. Gao, and C. H. Chen. A buffer-free continuous-flow biosensor for real-time monitoring of small biomolecules in human biofluids by ion concentration polarization. The BIGHEART Symposium 2018 on Health Technology, Singapore, Jul 23 - 24, 2018. PDF
[6] T. K. Perera, D.-T. Phan,* Y. Liu and C. Yang.* Pre-concentration of Cu (II) ions on microfluidic paper-based analytical devices by ion concentration polarization. The Second International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip (ICMFLOC 2018), Beijing, Jun 8 - 10, 2018. (* denotes corresponding authors) PDF
[5] D.-T. Phan, L. Jin, S. Wustoni, C.-H. Chen. Real-time ATP monitoring in human serum by a nanofluidic device integrated with an aptamer sensor. The 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Georgia, USA, Oct 22 - 26, 2017. Top 10% papers, selected for an Oral Presentation. PDF
[4] D.-T. Phan, L. Jin, S. Wustoni, C.-H. Chen. Real-time ATP monitoring in human serum by a nanofluidic device integrated with an aptamer sensor. The 7th International Multidisciplinary Conference on Optofluidics 2017, Singapore, Jul 25 - 28, 2017, doi:10.3390/optouidics2017-04488. Best Conference Paper Award Finalist. DOI: 10.3390/optofluidics2017-04488. PDF
[3] L. Jin, D.-T. Phan, T. Sun, C.-H. Chen. An auto-regeneratable electrochemical aptasensor for continuous monitoring of biomolecules enabled by ion concentration polarization. The 21st International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2017), Georgia, USA, Oct 22 - 26, 2017. PDF
[2] T. K. Perera, D.-T. Phan,* C. Yang* and Y. Liu. Ultra-high sample concentration by ion concentration polarization on a converging microfluidic paper based analytical device laminated by paraffin. The Fourth Annual Lab-on-a-Chip Asia, Singapore, Dec 05 - 06, 2016. (* denotes corresponding authors). PDF
[1] D.-T. Phan, T.-N. Nguyen. Investigation of surface finish quality of A1050-H14 aluminum products processed by SPIF technology. The 2nd Vietnam Science - Technology Conference on Mechanical Manufacturing Engineering, Hanoi, Vietnam, Dec 14 - 16, 2009.
Book
[1] D.-T. Phan, T.-N. Nguyen, K.-D. Le, T.-B. Nguyen. Incremental Sheet Forming on CNC machines. Vietnam National University Publisher, 2010.
Incremental Sheet Forming on CNC machines. Vietnam National University Publisher, 2010
Patent
[1] D.-T. Phan, D.-H. Choi, P. C. Searson. Capacitive sweat rate sensor, Ref. No. P15798-01. Filed, 08/2020.
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