Investigating the Impact of SALD Materials on CVD 2D Tungsten Disulfide

This project aims at improving LED technology through the utilization of advanced atomically thin materials. It seeks to create a scalable method for fabricating high-performance, energy-efficient, and flexible LEDs, addressing challenges in scalability and reproducibility. By combining CVD-grown transition-metal dichalcogenides (TMDCs) with spatial atomic layer deposition (SALD)-grown semiconducting oxides, the project promises to advance research on 2D materials within an international collaboration between the University of Duisburg-Essen in Germany, and the University of Waterloo in Canada. The participating institutions will benefit primarily from the exchange of technical knowledge, know-how, and ideas, fostering a rich environment for collaboration and innovation in LED technology.

Faculty Supervisor:

Kevin Musselman

Student:

Partner:

Universität Duisburg-Essen

Discipline:

Engineering

Sector:

Nanotechnology; Advanced Manufacturing; Quantum Science

University:

University of Waterloo

Program: