QMaDE Team

The QMaDE Lab (Quantum Moiré Materials and Advanced Device Engineering) is dedicated to the fundamental and applied exploration of quantum materials engineered at the atomic scale. My own research with experimental insights to investigate strain-engineered moiré superlattices, strongly correlated electron systems, and topologically nontrivial phases in 2D van der Waals materials. We pioneer scalable approaches for strain- and symmetry-engineered quantum systems (especially in moiré engineering without twist), with a focus on device integration for next-generation electronics, non-volatile memory, and superconducting qubit platforms. The lab actively bridges theory and experiment, working closely with collaborators to translate complex quantum phenomena into functional technologies. In pursuit of this objective, this group is actively engaged in the design and simulation of field-effect transistor (FET) devices based on two-dimensional quantum materials. We focus on integrating unconventional quantum phases, such as kagome lattices, into next-generation electronic architectures, employing first-principles density functional theory (DFT) calculations to explore their structural, electronic, and transport characteristics for advanced device functionality.

Note: The group is currently unaffiliated with any formal institution and is independently led by Nazmul Hasan, in collaboration with a network of motivated researchers who voluntarily contribute to advancing research in condensed matter physics and electrical engineering.

Theme of The QMaDE Lab 

Mentor and Lead Coordinator:

Nazmul Hasan

Ph.D. Candidate in Electrical Engineering, University of Rochester, NY, USA

MS in Electrical Engineering (2025), University of Rochester | BS in EEE (2021), NSU, Bangladesh

Current Members: