Shannon Lewis
Shannon Lewis joins us as a patent agent. Her academic background focused on chemical and electrical engineering, including II-VI and III-V optoelectronics, plasma deposition, integrated circuit fabrication, and silicon and organic semiconductor hybrid devices. She recently graduated from the University of Texas at Austin with a PhD in Electrical Engineering, where her dissertation research focused on organic semiconductors, chemical sensing, and novel dual-channel MOSFET design.
Education
- University of Texas at Austin, Ph.D. Electrical Engineering (Solid State Electronics) 2018
- University of Texas at Austin, M.S. Electrical Engineering (Solid State Electronics) 2007
- California Institute of Technology, B.S. Chemical Engineering (Materials) 2005
Publications
- Unintentional calcium incorporation in Ga(Al, In, N)As. (J.B. Hurst, S.D. Lewis, M.M. Oye, A.L. Holmes, A.J. Ptak, R.C. Reedy), Journal of Vacuum Science Technology B 2007.
- Molecular beam epitaxial growth of device-compatible GaAs on silicon substrates with thin (~80nm) Si1-xGex step-graded buffer layers for high-κ III-V metal-oxide-semiconductor field effect transistor applications. (M.M. Oye, D. Shahrjerdi, I. Ok, J.B. Hurst, S.D. Lewis, S. Dey, D.Q. Kelly, S. Joshi, T.J. Mattford, X. Yu, M.A. Wistey, J.S. Harris, A.L. Holmes, J.C. Lee, S.K. Banerjee), Journal of Vacuum Science and Technology B 2007.
- Realization of dual-channel organic field-effect transistors and their applications to chemical sensing. (Y.T. Jeong, B.H Cobb, S.D. Lewis, A. Dodabalapur, S. Lu, A. Facchetti, T.J. Marks), Applied Physics Letters 2008.
- Hybrid organic/inorganic ambipolar thin film transistor chemical sensing. (S. Dutta, S.D. Lewis, A. Dodabalapur) Applied Physics Letters 2011.
- Hybrid silicon-organic coupled-channel field-effect chemical sensors. (S.D. Lewis, A. Dodabalapur), in review.
Meet The Team
