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1.
Design Considerations for Nano-Electromechanical Relay Circuits
by Spencer, Matthew Edmund, Ph.D.  University of California, Berkeley. 2015: 102 pages; 3733438.
2.
Millimeter-wave CMOS power amplifiers design
by Bohsali, Mounir Youssef, Ph.D.  University of California, Berkeley. 2008: 165 pages; 3353454.
3.
Digitally Controlled Microwave Power Amplifier Design Techniques for Wireless Communications
by Diddi, Varish, Ph.D.  University of California, San Diego. 2017: 153 pages; 10289301.
4.
Hybrid CMOS SiPIN detectors as astronomical imagers
by Simms, Lance Michael, Ph.D.  Stanford University. 2010: 247 pages; 3395872.
5.
Current-mode CMOS hybrid image sensor
by Benyhesan, Mohammad Kassim, M.S.  University of Missouri - Kansas City. 2013: 91 pages; 1540634.
6.
Oxygen-insertion Technology for CMOS Performance Enhancement
by Zhang, Xi, Ph.D.  University of California, Berkeley. 2019: 112 pages; 27671498.
7.
A Scalable, High Sensitivity CMOS Electric Field Sensor
by Schaub, R. M., M.S.  State University of New York at Buffalo. 2012: 108 pages; 1520015.
8.
A Hybrid CMOS Image Sensor with Energy Harvesting Capability
by Pour, Golsa Moayeri, Ph.D.  Purdue University. 2015: 139 pages; 3734524.
9.
Information power efficiency tradeoffs in mixed signal CMOS circuits
by Mcfarlane, Nicole, Ph.D.  University of Maryland, College Park. 2010: 151 pages; 3486846.
10.
90nm CMOS direct-conversion transmitter design for WCDMA
by Yang, Xuemin, Ph.D.  North Carolina State University. 2009: 169 pages; 3360624.
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12.
Reset noise suppression in CMOS image sensor using charge control technique
by Syamsundar, Nitya, M.S.  The University of Texas at San Antonio. 2012: 79 pages; 1531653.
13.
Improvement of a propagation delay model for CMOS digital logic circuits
by Stamness, Rodger Lawrence, M.S.  San Jose State University. 2010: 100 pages; 1477363.
14.
30 GHZ adaptive receiver equalization design using 28 nm CMOS technology
by Villanueva, Gustavo T., M.S.  San Jose State University. 2015: 144 pages; 1594420.
15.
CMOS Compatible 3-Axis Magnetic Field Sensor using Hall Effect Sensing
by Locke, Joshua R., M.E.  Rochester Institute of Technology. 2015: 33 pages; 10003075.
16.
High-Speed and High-Efficiency CMOS-Compatible Photodiodes for Datacom Interconnects
by Ghandiparsi, Soroush, Ph.D.  University of California, Davis. 2020: 162 pages; 28093495.
18.
The calibration of CMOS sample-and-hold dynamic distortion for intermediate frequency application
by Li, Yanqing, M.S.E.E.  The University of Texas at Dallas. 2015: 58 pages; 10010791.
19.
Novel III-V device architectures for application in advance CMOS logic and beyond
by Hui, Goh Kian, Ph.D.  National University of Singapore (Singapore). 2015: 185 pages; 10006003.
20.
Design and Evaluation of Circuits and Architectures Based on Beyond-CMOS Device Technologies
by Palit, Indranil, Ph.D.  University of Notre Dame. 2017: 131 pages; 13836459.
24.
Novel Topologies for Highly-Scalable Non-volatile NEMS Relays
by Best, James T., Ph.D.  Carnegie Mellon University. 2019: 142 pages; 27671313.
25.
On-chip demonstration of carbon nanotube interconnects
by Close, Gael F., Ph.D.  Stanford University. 2008: 134 pages; 3313812.
27.
CMO: Chief Marketing Officer or chief “marginalized” officer
by Carver, James Richmond, Ph.D.  The University of Arizona. 2009: 136 pages; 3355006.
29.
Ultra-Low Power RFIC for Space/Medical/Mobile Applications
by Yasami, Saeid, Ph.D.  University of Louisiana at Lafayette. 2015: 114 pages; 10003754.
30.
Auxiliary Roles in STT-MRAM Memory
by Das, Jayita, Ph.D.  University of South Florida. 2014: 122 pages; 3666526.
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