Professional Education

  • Doctor of Philosophy, Stanford University, EE-PHD (2013)
  • Master of Science, Stanford University, EE-MS (2000)

Stanford Advisors


Journal Articles

  • Control of DNA Capture by Nanofluidic Transistors ACS NANO Paik, K., Liu, Y., Tabard-Cossa, V., Waugh, M. J., Huber, D. E., Provine, J., Howe, R. T., Dutton, R. W., Davis, R. W. 2012; 6 (8): 6767-6775


    We report the use of an array of electrically gated ~200 nm solid-state pores as nanofluidic transistors to manipulate the capture and passage of DNA. The devices are capable of reversibly altering the rate of DNA capture by over 3 orders of magnitude using sub-1 V biasing of a gate electrode. This efficient gating originates from the counter-balance of electrophoresis and electroosmosis, as revealed by quantitative numerical simulations. Such a reversible electronically tunable biomolecular switch may be used to manipulate nucleic acid delivery in a fluidic circuit, and its development is an important first step toward active control of DNA motion through solid-state nanopores for sensing applications.

    View details for DOI 10.1021/nn3014917

    View details for Web of Science ID 000307988900029

    View details for PubMedID 22762282

  • Experimental Demonstration and Analysis of DNA Passage in Nanopore-based Nanofluidic Transistors 2011 IEEE INTERNATIONAL ELECTRON DEVICES MEETING (IEDM) Paik, K., Liu, Y., Tabard-Cossa, V., Huber, D. E., Provine, J., Howe, R. T., Davis, R. W., Dutton, R. W. 2011
  • Improvement of Crosstalk on 5M Cmos Image Sensor with 1.7x1.7μm Pixels Proc. SPIE Koo, C., Kim, H., Paik, K., Lee, D., Lee, K., Park, Y., Moon, C., Lee, S., Lee, S., Lee, D., Kong, J. 2007

    View details for DOI 10.1117/12.701705

  • The features and characteristics of 5M CMOS image sensor with 1.9x1.9 mu m(2) pixels IEEE INTERNATIONAL ELECTRON DEVICES MEETING 2005, TECHNICAL DIGEST Moon, C. R., Jung, J., Kwon, D., Lee, S. H., Roh, J. S., Paik, K. H., Park, D. C., Kim, H. K., Jeong, H., Sim, J. H., Noh, H., Lee, K., Lee, D., Kim, K. 2005: 813-816
  • Three dimensional CMOS image sensor cell simulation and optimization SISPAD: 2005 INTERNATIONAL CONFERENCE ON SIMULATION OF SEMICONDUCTOR PROCESSES AND DEVICES Paik, K. H., Lee, S. H., Lyu, J. H., Lee, K. H., Park, Y. K., Kong, J. T. 2005: 103-106

Conference Proceedings

  • An Efficient Capacity and Image Lag Simulation Method of CMOS Image Sensor INTERNATIONAL IMAGE SENSOR WORKSHOP Paik, K., Shin, J., Lee, S., Koo, C., Lee, K., Lee, D., Park, Y., Yoo, M. 2007: P26

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