My research interests are in Computational Fluid Dynamics, Compressible Flow, Applied AI and Data Analytics, Space Propulsion, Materials Under Extreme Environments, and Lifelong Workforce Development.

My research is in single-electron qubits and hybrid superconducting quantum circuits for quantum information science and high-temperature superconductor electronics.

My interests are in the synthesis and tuning of quantum materials to uncover new phenomena and valuable performance.

I work on solving materials challenges to make nuclear energy safer and cheaper. My research focuses on understanding how materials behave in extreme nuclear reactor environments such as high temperature, radiation, and corrosion. 

My research interests are in Post-Quantum Cryptography, Homomorphic Encryption, Error Correction Codes for 5G/6G Communications, Digital SoC & VLSI Design, Applied Artificial Intelligence and Cybersecurity.

My research interests are in optical communications and networks, quantum communications, quantum networks, quantum sensing, error control coding, coded modulation, turbo equalization, orthogonal frequency division multiplexing (OFDM), quantum key distribution (QKD), quantum information processing, quantum error correction, and quantum biology.

My research is in soft materials characterization and development.

I am trained as both a chemical engineer and microbial synthetic biologist. I am interested in implementing an interdisciplinary approach combining computational and experimental methods for solving various engineering problems such as antibiotic resistance. 

My interests are in the area of mechanical metallurgy and advanced manufacturing. I like to understand why and how materials break and if possible, avoid them from breaking prematurely. 

My work focuses on the development of scalable and rapid nanomanufacturing approaches for advanced and quantum materials with novel electrical, magnetic, and mechanical properties.