Publications
1. Talari, V., Schaffer, L., Varghese, O., and Liu, D., Liquid wetting on titanium dioxide nanotubed surface , International Journal of Heat and Mass Transfer (to be submitted)
2. Lu, Y. and Liu, D., Frequency dependent electrowetting enhancement of critical heat flux in pool boiling, International Journal of Heat and Mass Transfer (to be submitted)
3. Zhang, Q., Wang, Y., Lin, F., Liu, D., Chen, Z., Wang, Z., and Bao, J., Laser-induced dynamic alignment and nonlinear optical transmission in liquid suspension of 2D atomically thin nanomaterials, Optics Express, accepted, (2021)
4. Lin, F., Quraishy, A., Tong, T., Li, R., Dong, S., Liu, D., Wang, Z., Schaibley, J., and Bao, J., Molding, patterning and driving liquids with light”, Materials Today, accepted (2021)
5. Tong, T., Yue, S., Li, R., Lin, F., Chen, D., Xing, X., Chu, W., Liu, D., Wang, Z., and Bao, J., Laser streaming on fiber end and arbitrary metal surface, Proceedings of the National Academy of Sciences, in revision, (2021)
6. Ma, C., Yu, P., Wang, W., Zhu, Y., Lin, F., Govorov, A., Liu, D., Xu, H., and Wang, Z., Chiral optofluidics with a plasmonic metasurface using the photothermal effect, ACS Nano,https://doi.org/10.1021/acsnano.lc05658, (2021)
7. Lu, Y., Bao, J.M., and Liu, D., Suppression of Leidenfrost state using electrically induced interfacial instabilities, International Journal of Heat and Mass Transfer, 170:121036 (2021).
8. Yue, S., Gamage, G., Moheibinia, M., Mayerich, D., Talari, V., Deng, Y., Tian, F., Dai, S., Sun, H, Hadjiev, V., Zhang, W., Feng, G., Hu, J., Liu, D., Wang, Z., Ren, Z., Bao, J. M., Photoluminescence mapping and time-domain thermo-photoluminescence for rapid measurement of thermal conductivity of boron arsenide, Materials Today Physics, 13: 100194 (2020).
9. Sim, K., Shi, L., He, G., Chen, S., Liu, D., and Yu, C., Flexible microfluidics for microparticle dispensing based on traveling wave dielectrophoresis, Journal of Micromechanics and Microengineering, 30:024001 (2020).
10. Yue, S., Lin, F., Zhang Q., Epie, N., Dong, S., Shan, X., Liu, D., Chu W., Wang, Z., and Bao, J., Gold implanted plasmonic quartz plate as a launch pad for laser driven photoacoustic microfluidic pumps, Proceedings of the National Academy of Sciences, 116(14): 6580-6585 (2019).
11. Li, J.T., Zhao, F.S., Deng. Y., Liu, D., Chen, C. H., and Shih, W.H., Photothermal generation of programmable microbubble array on nanoporous gold disks, Optics Express, 26(13):16893-16902 (2018).
12. Talari, V., Behar, P., Lu, Y., Haryadi, E. and Liu, D., Leidenfrost drops on micro/nanostructured surfaces, Frontiers in Energy, 12(1): 22-42, (2018).
13. Qi, B., Kong, Q., Qian, H., Patil, D., Lim, I., Li, M., Liu, D., Song, G., Study of impact damage in PVA-ECC beam under low-velocity impact loading using piezoceramic transducers and PVDF thin-film transducers, Sensors, 18(2): 671 (2018).
14. Sur, A., Lu, Y., Pascente, C., Ruchhoeft, P., and Liu, D., Nucleate boiling heat transfer enhancement with electrowetting, International Journal of Heat and Mass Transfer, 120: 202-217, (2018).
15. Wang, Y., Zhang, Q. H., Zhu, Z., Lin, F., Deng, J. D., Ku, G., Song, S., Alam, M. D., Liu, D., Wang, Z., and Bao, J. M., Laser streaming: turning a laser beam into a liquid jet, Science Advances, 3:e1700555, (2017).
16. Yi, L., Bao, J. M., and Liu, D., Dynamics of a Leidenfrost droplet modulated by electrowetting, Journal of Heat Transfer, 139(8):080902, (2017).
17. Wang, H. X., Liu, D., and Liu, L.P., Equilibrium shapes of a heterogeneous bubble in an electric field: a variational formulation and numerical verifications, Proceedings of Royal Society A, 473:20160494, (2017).
18. Wang, Y., Tang, Y. J., Cheng, P. H., Zhou, X. F., Zhu, Z., Liu, Z. P., Liu, D., Wang, Z. M., and Bao, J. M., Distinguishing thermal lens effect from electronic third-order nonlinear self-phase modulation in liquid suspensions of 2D nanomaterials, Nanoscale, 9:3547-3554, (2017).
19. Lu, Y., Sur, A., Pascente, C., Annapragada, S., Ruchhoeft, P., and Liu, D., Dynamics of droplet motion induced by electrowetting, International Journal of Heat and Mass Transfer, 106(3): 920-931, (2017).
20. Ebrahimi, B., He, G. L., Tang, Y. J., Franchek, M., and Liu, D., Characterization of high-pressure cavitating flow through a thick orifice plate, International Journal of Thermal Sciences, 114(4): 229-240, (2017).
21. Yang, L.X., Guo, A., and Liu, D., Experimental investigation of subcooled vertical upward flow boiling in a narrow rectangular channel, Experimental Heat Transfer, 29(2): 221-243, (2016)
22. Yu, L. Y., Sur, A., and Liu, D., Flow boiling heat transfer and two-phase flow instability of nanofluids in a minichannel, Journal of Heat Transfer, 137(5): 051502, (2015)
23. Sur, A., Lu, Y., Pascente, C., Ruchhoeft, P., and Liu, D., Bubble ebullition on a hydrophilic surface, Journal of Heat Transfer, 137(2): 020905, (2015)
24. Yang, L. X., Zhao, N., and Liu, D., Dynamics of ferromagnetic nanowires in a rotating magnetic field, Advances in Mechanical Engineering, 7(7): 1-11, (2015)
25. Yin, L., Jia, L., Guan, P., and Liu, D., Experimental investigation on bubble confinement and elongation in microchannel flow boiling, Experimental Thermal and Fluid Science, 54(2): 290-296, (2014)
26. He, G. L., and Liu, D., Coupled electrohydrodynamic-dielectrophoretic pumping of colloidal suspensions in a microchannel, International Journal of Micro-Nanoscale Thermal Fluid Transport Phenomena, 4(1): 1-21, (2013)
27. Yu, L. Y., and Liu, D., A study of thermal transport of nanofluids and their suitability for electronics cooling, IEEE Transactions on Components and Packaging Technologies, 3(10): 1693-1704 (2013)
28. Gadogbe, M., Ansar, S. M., He, G. L., Collier, W. E., Rodriguez, J., Liu, D., Chu, I. W., and Zhang, D., Determination of colloidal gold nanoparticle surface areas, concentrations and sizes through quantitative ligand adsorption, Analytical and Bioanalytical Chemistry, 405(1): 413-422, (2013)
29. Li, D., Wu, G. S., Wang, W., Wang, Y. D., Liu, D., Zhang, D. C., Chen, C. F., Peterson, G. P., and Yang, R. G., Monolithic silicon-nanowire coatings for enhancing flow boiling heat transfer in microchannels, Nano Letters, 12(7): 3385-3390, (2012)
30. Vangala, K., Ameer, F., Salomon, G., Le, V., Lewis, E., Yu, L. Y., Liu, D. and Zhang, D., Studying protein and gold nanoparticle interaction using organothiols as molecular probes, Journal of Physical Chemistry, 116(5): 3645-3652, (2012)
31. Yu, L. Y., Liu, D., and Botz, F., Laminar convective heat transfer of alumina-Polyalphaolefin nanofluids containing spherical and non-spherical nanoparticles, Experimental Thermal and Fluid Science, 37(2): 72-83, (2012)
32. Sur, A., and Liu, D., Adiabatic air-water two-phase flow in circular microchannels, International Journal of Thermal Sciences, 53(3): 18-34, (2012)
33. Ansar, S, Haputhanthri, R., Edmonds, B., Liu, D., Yu, L. Y., Sygula, A. and Zhang, D., Determination of the binding affinity, packing, and conformation of thiolate and thione ligands on gold nanoparticles, Journal of Physical Chemistry, 115(3): 653-660 (2011)
34. Liu, D., and Yu, L. Y., Single-phase thermal transport of nanofluids in a minichannel, Journal of Heat Transfer, 133(3): 031009 (2011)
35. Liu, D., and Garimella, S. V., Microfluidic pumping based on traveling-wave dielectrophoresis, Nanoscale and Microscale Thermophysical Engineering, 13(2): 109-133 (2009)
36. Garimella, S. V., and Liu, D., Microscale thermal transport and electromechanical microfluidic actuation, Journal of Enhanced Heat Transfer, 16(3): 1-30 (2009)
37. Liu, D., and Garimella, S. V., Flow boiling heat transfer in microchannels, Journal of Heat Transfer, 129(10): 1321-1331 (2007)
38. Garimella, S. V., Singhal, V., and Liu, D., On-chip thermal management with microchannel heat sinks and integrated micropumps, Proceedings of the IEEE (invited paper), 94(8): 1534-1548 (2006)
39. Liu, D., Lee, P. S., and Garimella, S. V., Prediction of the onset of nucleate boiling in microchannel flow, International Journal of Heat and Mass Transfer, 48(25): 5134-5149 (2005)
40. Liu, D., Lee, P. S., and Garimella, S. V., Nucleate boiling in microchannels, Journal of Heat Transfer, 127(8): 803 (2005)
41. Liu, D., Garimella, S. V., and Wereley, S. T., Infrared micro-particle velocimetry in silicon-based microdevices, Experiments in Fluids, 38(3): 385-392 (2005)
42. Lee, P. S., Garimella, S. V., and Liu, D., Investigation of heat transfer in rectangular microchannels, International Journal of Heat and Mass Transfer, 48(9): 1688-1704 (2005)
43. Liu, D., and Garimella, S. V., Analysis and optimization of the thermal performance of microchannel heat sinks, International Journal of Numerical Methods for Heat and Fluid Flow, 15(1): 7-26 (2005)
44. Liu, D., and Garimella, S. V., Investigation of fluid flow in microchannels, AIAA Journal of Thermophysics and Heat Transfer, 18(1): 65-72 (2004)
45. Peng, X. F., Liu, D., and Lee, D. J., Dynamic characteristics of microscale boiling, Heat and Mass Transfer, 37: 81-86 (2001)
46. Peng, X. F., Liu, D., Lee, D. J., Yan, Y., and Wang, B. X., Cluster dynamics and fictitious boiling in microchannels, International Journal of Heat and Mass Transfer, 43(23): 4259-4266 (2000)