Transparent Electronics
1
2018-2019
03015965
Materials Science and Engineering
Portuguese
Face-to-face
6.0
Elective
3rd Cycle Studies
Recommended Prerequisites
Not applicable.
Teaching Methods
The teaching methodology tries to introduce most of the topics in an interrogative format, allowing the students to participate in their own formation. The lab classes consist on the project, fabrication and characterization of transparent TFTs and ICs.
Learning Outcomes
The objectives of the Transparent Electronics course are to introduce the fundamentals of the materials and processes used for this emerging area. Emphasis will be given to the novel oxide semiconductors as well as to the device and IC fabrication and characterization using these materials, mostly using fully transparent thin-film transistors.
Work Placement(s)
NoSyllabus
1 – Introduction, relevance of the topic
2 – History of TFTs and transparent electronics
3 – Materials for transparent electronics: n- and p-type oxide (semi)conductors
4 – Materials for transparent electronics: dielectrics
5 – Thin-film transistors: operation and fabrication
6 – Transparent ICs.
Assessment Methods
Evaluation
The evaluation is done with a written report regarding the lab classes. Then, this work is presented by the students and discussed in a ppt format: 100.0%
Bibliography
1 – P. Barquinha, R. Martins, L. Pereira, E. Fortunato, “Transparent Oxide Electronics: from materials to
devices”, Wiley, West Sussex, 2012.
2 – E. Fortunato, P. Barquinha, G. Gonçalves, L. Pereira, and R. Martins, “Oxide Semiconductors: From Materials to Devices,” in Transparent Electronics: from synthesis to applications, A. Facchetti and T. Marks, Ed. West Sussex: Wiley, 2010.
2 - J. Wager “Transparent Electronics”, Springer, 2008.
3 - H.L. Hartnagel, A.L. Dawar, A.K. Jain, C. Jagadish, “Semiconducting Transparent Thin Films”, Institute of Physics Publishing, Bristol, 1995
4 – C.R. Kagan, P. Andry : “Thin-Film Transistors”, Marcel Dekker, New York, 2003.
5 – A.C. Tickle, “Thin-Film Transistors, A New Approach to Microelectronics”, John Wiley, New York, 1969.
6 - Y. Kuo, “Thin Film Transistors”, volumes I e II, Kluwer, Boston, 2004.