Research Interest
Our research explores how quantum interactions in condensed systems can inspire next-generation technologies. At the frontier of condensed matter physics, our research delves into the quantum behaviors that define the future of materials and devices. From topological phases and low-dimensional systems to emergent quantum phenomena under extreme conditions, we aim to uncover the principles that turn exotic matter into practical innovation. Our mission is to connect discovery with design transforming fundamental physics into real-world technologies through open collaboration and creative inquiry.
Research Highlights
Twistronics and 2D Layered Systems
Quantum Materials
Collaborate With Us
We actively collaborate across disciplines from materials science and nanotechnology to computational physics. We welcome researchers interested in co-developing novel materials, measurement techniques, and quantum simulation frameworks.
Contact Information:
- Email: mhasnainjamil@gmail.com
- Phone: +92 336 6155218
Current Research Projects
Design of multifunctional catalytic materials (MXene, PGCNs Confined Non-Precious Metal Atomic 2D materials) via Machine learning methods and high-throughput DFT Strategies.
Innovation in Practice
Our investigations into correlated electron systems inform the development of next-generation organic and inorganic solar cells and low-power electronic devices. By translating condensed-matter insights into applied technology, we aim to redefine the limits of material performance.
Team & Network
Kindly check the section professors and doctors section related to our team research.