Qualifications
- 2006 – 2010: Bachelor, Hanoi National University of Education
- 2010 – 2012: Master, Hanoi National University of Education
- 2013 – 2016: PhD, Paris Sud-Paris Saclay University, France
Teaching interests
- Probability and Statistics
- Mathematics Tools
- Fundamental Physics I
- Fundamental Physics II
- Mathematics
- Physics
- Material for energy
Research interests
Modeling and simulation of materials for applications in electronics and energy. Specifically, this involves developing and advancing computational techniques to simulate the electronic and phonon properties (quantized lattice vibrations) of graphene-based structures and two-dimensional materials with graphene-like crystal lattices. The research also investigates the electrical and thermoelectric transport properties of devices based on these materials.
Selected publications
- M.-C. Nguyen et al, “Edge State Quantum Interference in Biased Zigzag Bilayer Graphene Nanoribbons”, J. Phys. Soc. Jpn, 95, 024704 (2026).
- M.-C. Nguyen et al, “Quantum interference of electrons through electric-field-induced edge states in stacked graphene nanoribbons”, Phys. Scr. 97 115814 (2022).
- M.-C. Nguyen et al, “Electron Transport Through Experimentally Controllable Parabolic Bubbles on Graphene Nanoribbons”, Communications in Physics 3, 32 (2022).
