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1.
III-V and 2D Devices: From MOSFETs to Steep-Slope Transistors
by Si, Mengwei, Ph.D.  Purdue University. 2018: 148 pages; 10838712.
4.
Designing Framework for the Computer Aided Design of Silicon Carbide JFET Circuits in BLEO Environments
by Naidugari, Venkata Vinay, M.S.  The University of Mississippi. 2017: 104 pages; 10280107.
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The Use of Ferroelectrics and Dipeptides as Insulators in Organic Field-Effect Transistor Devices
by Knotts, Grant, Ph.D.  University of Missouri - Columbia. 2017: 153 pages; 10629013.
8.
Selected issues facing the use of two-dimensional materials in transistors
by Sun, Leong Wei, Ph.D.  National University of Singapore (Singapore). 2015: 206 pages; 10006037.
9.
Rf linearity in low dimensional nanowire mosfets
by Razavieh, Ali, Ph.D.  Purdue University. 2014: 127 pages; 3636500.
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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.
13.
Probe immobilization strategies and device optimization for novel transistor-based DNA sensors
by Fahrenkopf, Nicholas M., Ph.D.  State University of New York at Albany. 2013: 157 pages; 3558154.
14.
A RF Graphene FET Large-Signal Compact Model Compatible with Circuit Simulators
by Trocchia, Scott M., M.S.  The George Washington University. 2012: 101 pages; 1514735.
15.
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.
16.
Rational Tuning of Quantum Dot Solid Electronic Properties through Ligand Variation
by Fu, Kan, Ph.D.  University of California, Irvine. 2019: 172 pages; 13807798.
17.
Device Engineering of AlGaN/GaN HEMTs for Applications in Power-Electronic and Sensing
by Mahaboob, Isra, Ph.D.  State University of New York at Albany. 2019: 265 pages; 13885888.
18.
Ultra-Low Power RFIC for Space/Medical/Mobile Applications
by Yasami, Saeid, Ph.D.  University of Louisiana at Lafayette. 2015: 114 pages; 10003754.
19.
FinFET memory cell improvements for higher immunity against single event upsets
by Sajit, Ahmed Sattar, M.S.  California State University, Fullerton. 2016: 63 pages; 10244875.
20.
Exploring new dielectrics to improve switching speeds of carbon nanotube memory devices
by Lucas, Kristin Anne, M.S.  Georgetown University. 2011: 83 pages; 1498659.
21.
High-performance gateless III-nitride microwave switches
by Wang, Jingbo, Ph.D.  University of South Carolina. 2010: 87 pages; 3402859.
22.
On-chip demonstration of carbon nanotube interconnects
by Close, Gael F., Ph.D.  Stanford University. 2008: 134 pages; 3313812.
23.
Monolayer MoS2 and MoS2/Quantum Dot hybrids: Novel optoelectronic materials
by Prasai, Dhiraj Kumar, Ph.D.  Vanderbilt University. 2015: 133 pages; 10295649.
24.
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.
26.
Synthesis and device applications of graphitic nanomaterials
by Umair, Ahmad, Ph.D.  The University of Iowa. 2013: 83 pages; 3680098.
27.
New tests and test methodologies for scan cell internal faults
by Yang, Fan, Ph.D.  The University of Iowa. 2009: 155 pages; 3390232.
28.
Effect of film formation on the electronic properties of solution processed polymer optoelectronic devices
by Peet, Jeffrey Hamilton, Ph.D.  University of California, Santa Barbara. 2009: 234 pages; 3371673.
29.
Performance evaluation of 64 bit SRAM and DRAM
by Kaushal, Kavit, M.S.  California State University, Long Beach. 2017: 72 pages; 10260954.
30.
Improving the Readout of Semiconducting Qubits
by Curry, Matthew Jon, Ph.D.  The University of New Mexico. 2019: 195 pages; 13857960.
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