- Semiconductor Physics and Devices
- Quantum Electronics
- Nanoelectronics

- Engineering Probability and Statistics
- Electronics I
- Solid State Devices
- Modern Physics
- Numerical Calculations
- Electrical Circuits I

All Thesis (13)

*"Energy dissipation of quantum-dot cellular automata logic gates"*, Micro & Nano Letters, 7, 7, 369-371, 2016-07-07*"Radius of effect in molecular quantum-dot cellular automata"*, Molecular Physics, 5, 5, 697-705*"Molecular quantum cellular automata cell design trade-offs: latching vs. power dissipation"*, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 26, 26, 17881-17888, 2018-06-08*"Optimization of Quantum Cellular Automata Circuits by Genetic Algorithm"*, International Journal of Engineering, 2, 2, 229-236, 2020-01-02*"Non-adiabatic energy dissipation of quantum cellular automata logic devices"*, IET Circuits Devices , Systems, 5, 5, 623-628, 2020-08-11*"Single-Electron Fault Tolerance in Quantum Cellular Automata Majority Gate"*, JOURNAL OF CIRCUITS SYSTEMS AND COMPUTERS, 9, 9, -, 2021-01-18*"Displacement Effects on the Electrical Characteristics of a Single- Molecule Device"*, Journal of Electrical and Computer Engineering Innovations, 1, 1, 1-1*"Design and Simulation of a Novel HBT Transistor with Gate-Controlled Current Gain"*, International Journal of Engineering, 2, 2, 1-10*"Novel Quantum-Dot Cellular Automata-Based Gate Designs for Efficient Reversible Computing"*, Sustainability, 3, 3, 2265-, 2023-08-26*"A novel QCA circuit-switched network with power dissipation analysis for nano communication applications"*, Nano Communication Networks, 1, 1, 100438-, 2023-02-02