ECE 538
ECE 538 - 2D Material Electronics and Photonics
Spring 2025
Title | Rubric | Section | CRN | Type | Hours | Times | Days | Location | Instructor |
---|---|---|---|---|---|---|---|---|---|
2D Material Electr & Photonics | ECE538 | AD1 | 74762 | LAB | 0 | 1400 - 1550 | T | 1003 Electrical & Computer Eng Bldg | Wenjuan Zhu |
2D Material Electr & Photonics | ECE538 | AD2 | 74980 | LAB | 0 | 1400 - 1550 | W | 1003 Electrical & Computer Eng Bldg | Wenjuan Zhu |
2D Material Electr & Photonics | ECE538 | AD3 | 75144 | LAB | 0 | 1300 - 1500 | M | Wenjuan Zhu | |
2D Material Electr & Photonics | ECE538 | AD4 | 75145 | LAB | 0 | 1300 - 1500 | R | Wenjuan Zhu | |
2D Material Electr & Photonics | ECE538 | AD5 | 76248 | LAB | 0 | 1300 - 1550 | F | 1003 Electrical & Computer Eng Bldg | Wenjuan Zhu |
2D Material Electr & Photonics | ECE538 | AL1 | 74764 | LEC | 4 | 0930 - 1050 | T R | 4070 Electrical & Computer Eng Bldg | Wenjuan Zhu |
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Official Description
Explores the electronic and photonic devices based on two-dimensional (2D) materials. More specifically, this course will discuss the synthesis and characterization of a variety of 2D materials. This course will also introduce the design, fabrication and physics of various nanoscale devices, including logic transistors, radio frequency devices, tunneling devices, photodetectors, plasmonic devices, lasers and valleytronic devices. The lab sessions will provide the students hands-on experience on the fabrication and characterization of 2D electronic/photonic devices. The lab sessions will be carried out in the nanofabrication laboratory in ECEB. Course Information: 4 graduate hours. No professional credit. Prerequisite: ECE 340 or equivalent.
Subject Area
- Microelectronics and Photonics
Course Director
Description
The goal of this course is to provide graduate students and researchers with the essential basics, breadth and depth on 2D materials properties and their electronic and photonic devices. We will discuss the structures, operating principles, advantages and limitations of a variety of electronic and optoelectronic devices, including logic devices, radio frequency (RF) devices, tunneling devices, memories, photodetectors, solar cells, plasmonic devices, and lasers. Beyond the current state of the 2D field, this course will provide an outlook about the future of the 2D field.
Last updated
12/16/2021