Mechanical and Aerospace Engineering Department; School of Engineering and Applied Science
Engineering IV, Room 38-137J
420 Westwood Plaza
Los Angeles, CA 90095
Work Phone Number:
Mechanical and Aerospace Engineering
Brain Research Institute,
Neuroengineering Training Program
Biomedical Engineering IDP
Dr. Chih-Ming Ho currently serves as UCLA Associate Vice Chancellor for Research and holds the Ben Rich-Lockheed Martin Chair Professor in School of Engineering. He is a member of the Executive Committee of California NanoSystem Institute (CNSI). He graduated from Mechanical Engineering Department of the National Taiwan University. After receiving his Ph.D. from The Johns Hopkins University, Dr. Ho started his career at the University of Southern California and rose to the rank of Full Professor. In 1991, he moved to the University of California, Los Angeles to lead the establishment of the micro-electro-mechanical-system (MEMS) field in UCLA and served as the founding Director of the Center for Micro Systems. To this day, the UCLA MEMS research has been recognized as one of the best in the world. He is an internationally renowned scientist in fluidics, which is one of the backbone processes in bio-nano technology. In 1997, Dr. Ho was inducted as a member of the National Academy of Engineering. In the next year, he was elected as an Academician of Academia Sinica, which honors scholars of Chinese origin with exceptional achievements in liberal arts and the sciences. Dr. Ho has made seminal impacts in micro/nano fluidics, bio-technology and turbulence. He has published 190 papers and holds seven patents, and has presented over 60 keynote talks in international conferences. He was elected Fellow of the American Physical Society as well as American Institute of Aeronautics and Astronautics for his contributions in a wide spectrum of technical areas.
In addition to his academic accomplishments, he has made extensive contributions to the professional societies around the world. He has chaired the Division of Fluid Dynamics (DFD) in American Physical Society, which is the leading platform in the United States for scientists interested in fundamental fluid dynamics. On the international level, he has served on advisory panels to provide assistance to many countries and regions, France, China, Israel, Taiwan, and Japan, on the development of nano/micro technologies. Dr. Ho also has chaired or served on numerous organizing committees of international conferences on high technology topics.
Wei, F., Liao, W., Xu, Z., Yang, Y., Wong, D.T., Ho, C.-M. A Bio-abiotic Interface Constructed by Nanoscale DNA-Dendrimer and Conducting Polymer for Ultra-sensitive Bio-molecular Diagnosis.
1784 ? 1790.
Gu, F., Li, Y., Zhou, C., Wong, D.T.W., Ho, C.-M., Qi, F., and Shi, W. Bacterial 16S rRNA/rDNA Profiling in the Liquid Phase of Human Saliva.
The Open Dentistry Journal
80 ? 84.
Wong, T.-S., Brough, B., and Ho, C.-M. Creation of Functional Micro/Nano Systems through Top-down and Bottom-up Approaches.
Molecular and Cellular Biomechanics
1 ? 56.
Wong, T.-S. and Ho, C.-M. Dependence of Macroscopic Wetting on Nanoscopic Surface Textures.
12851 ? 12854.
Wei, F., Liao, W., Zhang, L., Arellano-Garcia, M., Hu, Shen, Wong, D.T., and Ho, C.M. Electrochemical Sensor for Oral Cancer Detection with Multiplex Salivary Biomarkers.
Clinical Cancer Research
OF1 ? OF7.
Sun, C.P., Usui, T., Yu, F., Al-Shyoukh, I., Shamma, J., Sun, R., and Ho, C.M. Integrative Systems Control Approach for Reactivating Kaposi?s Sarcoma-Associated Herpesvirus (KSHV) with Combinatory Drugs.
123 ? 130.
Wong, I. and Ho, C.-M Surface Molecular Property Modifications for Poly(dimethylsiloxane) (PDMS) Based Microfluidic Devices.
Microfluidics and Nanofluidics
291 ? 306.
Wong, T.-S., Huang, A.P.-H., and Ho, C.-M. Wetting Behaviors of Individual Nanostructures.
6599 ? 6603.
Wei, F. Wang, J. Liao, W. Zimmermann, B. G. Wong, D. T. Ho, C. M. Electrochemical detection of low-copy number salivary RNA based on specific signal amplification with a hairpin probe.
Nucleic Acids Res
Lee YK, Shih C, Tabeling P, Ho CM Experimental study and nonlinear dynamic analysis of time-periodic micro chaotic mixers.
Journal of Fluid Mechanics
Brough B, Christman KL, Wong TS, Kolodziej CM, Forbes JG, Wang K, Maynard HD, Ho CM Surface initiated actin polymerization from top-down manufactured nanopatterns.
Huang, T.J., Flood, A.H., Brough, B., Liu, Y., Bonvallet, P.A., Kang, S., Chu , C.W., Guo, T.F., Lu, W., Yang, Y., Stoddart, J.F. and Ho, C.M. "Understanding and Harnessing Biomimetic Molecular Machines for NEMS Actuation Materials".
IEEE Transactions on Automation Science and Engineering
Choi CH, Ulmanella U, Kim J, Ho CM, Kim CJ Effective slip and friction reduction in nanograted superhydrophobic microchannels.
Physics of Fluids
Chen, J. M. Ho, C. M. Path to bio-nano-information fusion.
Ann N Y Acad Sci
Cubaud T, Ulmanella U, Ho CM Two-phase flow in microchannels with surface modifications.
Fluid Dynamics Research
Qiao Lin, Yong Xu, Fukang Jiang, Yu-Chong Tai, and Chih-Ming Ho. "A Parametrized Three-Dimensional Model for MEMS Thermal Shear-Stress Sensors".
Journal of Microelectromechanical Systems
Pak Kin Wong, Winny Tan and Chih-Ming Ho. "Cell Relaxation after Electrodeformation: Effect of latrunculin A on actin cytoskeleton".
Journal of Biomechanics
Yang, C.Y., Brooks, E., Li, Y., Denny, P., Ho, C.M., Qi, F., Shi, W., Wolinsky, L., Wu, B., Wong, D. and Montamagno, C. "Detection of Picomolar Levels of Interleukin-8 in Human Saliva by SPR".
Lab on a Chip
Li, Y., Denny, P., Ho, C.M., Montemagno, C., Shi, W., Qi, F., Wu, B., Wolinsky, L., and Wong, D.T. "The Oral Fluid MEMS/NEMS Chip (OFMNC): Diagnostic & Translational Applications".
Adv Dent Res
Cubaud T, Tatineni M, Zhong XL, Ho CM Bubble dispenser in microfluidic devices.
Physical Review E
Wong, P. K. Tan, W. Ho, C. M. Cell relaxation after electrodeformation: effect of latrunculin A on cytoskeletal actin.
Tony Jun Huang, Branden Brough, Chih-Ming Ho, Yi Liu, Amar H. Flood, Paul A. Bonvallet, Hsian-Rong Tseng, J. Fraser Stoddart, Marko Baller, and Sergei Magonov. "A nanomechanical device based on linear molecular motors".
Applied Physics Letters
Lin, Q., Jiang, F., Wang, X., Xu, Y., Han, Z., Tai, Y.C., Lew, J. and Ho, C.M. "Experiments and Simulations of MEMS Thermal Sensors for Wall Shear Stress Measurements in Aerodynamic Control Applications".
J. of Micromechanics and Microengineering
Maie A. R. St. John; Yang Li; Xiaofeng Zhou; Paul Denny; Chih-Ming Ho; Carlo Montemagno; Wenyuan Shi; Fengxia Qi; Benjamin Wu; Uttam Sinha; Richard Jordan; Lawrence Wolinsky; No-Hee Park; Honghu Liu; Elliot Abemayor; David T. W. Wong "Interleukin 6 and Interleukin 8 as Potential Biomarkers for Oral Cavity and Oropharyngeal Squamous Cell Carcinoma".
Arch Otolaryngol Head Neck Surg
929 - 935.
Tony Jun Huang, Hsian-Rong Tseng, Lin Sha, Weixing Lu, Branden Brough, Amar H. Flood, Bi-Dan Yu, Paul C. Celestre, Jane P. Chang, J. Fraser Stoddart, and Chih-Ming Ho. "Mechanical Shuttling of Linear Motor-Molecules in Condensed Phases on Solid Substrates".
2065 - 2071.
Hsiai T, Cho, S.K., Wong, P, Ing M., Salazar, A., Navab, M., Demer, L., Ho, C. M. "Micro Sensors: Linking Real-Time Oscillatory Shear Stress with Vascular Inflammatory Responses".
Ann Biomed Eng.
Huang, A.; Lew, J.; Xu, Y.; Tai, Y.-C.; Ho, C.-M. "Microsensors and Actuators for Macrofluidic Control".
Sensors Journal, IEEE
Mingming Wu, Thomas Cubaud, and Chih-Ming Ho. "Scaling law in liquid drop coalescence driven by surface tension".
Physics of Fluids
T Cubaud, C-M Ho. "Transport of bubbles in square microchannels".
Physics of Fluids
Wong, P.K., Lee, Y.-K., and Ho, C.M. "Deformation of DNA Molecules by Hydrodynamic Focusing".
Journal of Fluid Mechanics
Xu, Y., Jiang, F. Newbern, S., Huang, P.H., Ho, C.M., and Tai, Y.C. "Flexible Shear-Stress Sensor Skin and its Application to Unmanned Aerial Vehicles".
Sensors and Actuators A: Physical
Tony Jun Huang; Flood, A.; Chih-Wei Chu; Seogshin Kang; Tzung-Fang Guo; Yamamoto, T.; Hsian-Rong Tseng; Bi-Dan Yu; Yang Yang; Stoddart, J.F.; Chih-Ming Ho. "In Situ Infrared Spectroscopic Studies of Molecular Behavior in Nanoelectronic Devices".
2003; 2(San Francisco, USA 12-14 Aug.):
698 - 701.
Hsiai T, Cho, S.K., Wong, P, Ing M., Salazar, A., Hama S., Navab, M., Demer, L., Ho, C. M. "Monocyte Recruitment to Endothelial Cells in Response to Oscillatory Shear Stress".
The FASEB Journal
Suzuki, H., Nakano, M., Kasagi, N. and Ho, C.M. "Particle Tracking Velocimetry Measurement of Chaotic Mixing in a Micro Mixer".
S. Ho, H. Nassef, N. Pornsin-Sirirak, Y.-C. Tai, C.-M. Ho. "Unsteady Aerodynamics and Flow Control for Flapping Wing Flyers".
Progress in Aerospace Science
Huang, J., Liu, M., Knight, L. D., Grody, W. W. Miller, J. F., and Ho, C. M. "An Electrochemical Detection Scheme for Identifications of Single-Nucleotide Polymorphism Using Hairpin-forming Probes".
Nucleic Acids Research
T. K. Hsiai, S. K. Cho, J. M. Yang, X. Yang, Y. C. Tai and C. M. Ho. "Pressure Drops of Water Flow through Micromachined Particle Filters".
ASME Journal of Fluids Engineering
Tseng, F.G., Kim, C.J. and Ho, C.M. A high-resolution high-frequency monolithic top-shooting microinjector free of satellite drops - Part I: Concept, design, and model .
T. K. Hsiai, S. K. Cho, H. M. Honda, S. Hama, M. Navab, L. L. Demer, A. M. Fogelman, and C. M. Ho. Endothelial Cell Dynamics under Pulsating Flows: Significance of High Versus Low Shear Stress Slew Rates (??/??) .
Annals of Biomedical Engineering
Ma, Y. Sun, C. P. Fields, M. Li, Y. Haake, D. A. Churchill, B. M. Ho, C. M. An unsteady microfluidic T-form mixer perturbed by hydrodynamic pressure.
J Micromech Microeng
Benahmed, A. J. Ho, C. M. Bandgap-assisted surface-plasmon sensing.
Liu, Y. Flood, A. H. Bonvallet, P. A. Vignon, S. A. Northrop, B. H. Tseng, H. R. Jeppesen, J. O. Huang, T. J. Brough, B. Baller, M. Magonov, S. Solares, S. D. Goddard, W. A. Ho, C. M. Stoddart, J. F. Linear artificial molecular muscles.
J Am Chem Soc
Wong, P. K. Chen, C. Y. Wang, T. H. Ho, C. M. Electrokinetic bioprocessor for concentrating cells and molecules.
Pak Kin Wong, Che-Yang Chen, Tza-Huei Wang, and Chih-Ming Ho. "Electrokinetic Bioprocessor for Concentrating Cells and Molecules Analytical Chemistry".