Welcome to MY-Lab @ AS
Our objective is to synthesize, characterize, and apply quantum materials, predominantly 2D materials, in electronic and energy applications with potential impacts on our daily lives. By harnessing the distinctive behaviors arising from quantum mechanical properties, we enhance sensors, electronic devices, and energy devices. Numerous quantum properties remain undiscovered, presenting opportunities for us to explore and imagine their transformative potential for our future.
Quantum Materials
2D materials can suspend over pinholes and possess unique physical properties down to atomic thickness. We synthesize novel 2D materials and explore their unique functions.
Novel Properties
We fabricate devices with ultra-scaled patterning techniques and control edges with atomic precision. We also investigate exciting changes in physical and chemical properties, including spin, exciton, photon, electron transport, and even electrochemical reaction.
Innovative Devices
Control through hetero-junctions, edges, contacts, gradient compositions, and functionalization to improve the performance of transistors, sensors, FET, transistors, single photon quantum emission, and energy devices.
Our Research
Do you want to learn more about our work on "nano"? The "Research" section of our web page will introduce our current projects. The "Publication" part of this section gives you an overview of our past work and our achievements.
Prospective Students
Are you interested doing research with us or in joining our lab? We would love to talk to you! Find out how to work with us in the "Contact" section of our web page.
Not sure if you are qualified? Check our "Good to know" page in the "Contact" section for requirements and frequently asked questions.
"Follow your interests, get the best available education and training, set your sights high, be persistent, be flexible, keep your options open, accept help when offered and be prepared to help others."
-Mildred Dresselhaus (1931-2017)