Work with thought leaders and academic experts in Material Science

Endowed Chair and Professor of Chemical Engineering / August, 2021 — Present

Professor of Chemical, Biological and Materials Engineering / 2016 — 2021

Developing a world-class research program in stimuli reponsive polymers and polymer-grafted nanoparticles for biomedical, energy, and environmental applications. Committed to balance and excellence in research scholarship, teaching scholarship, and service to the profession. Passionate about instilling a love of learning and curiosity about how the world works physically in future generations.

Professor of Engineering / 2005 — 2016

Professor of Chemical Engineering who is committed to research, teaching, and service. My research is focused on polymer and nanoparticle-based material design, including ‘smart’ stimuli responsive polymers, polymer-nanoparticle constructs for biomedical and energy applications, and bio-based products such as polymers and fuels.

Research Engineer / July, 2023 — Present

Train and assist users in electron microscopy. Do research based on the needs of users

Princiapl Scientist / January, 2010 — Present

Senior Consultant / November, 2015 — September, 2016

Technical Research Staff / January, 2011 — February, 2014

Research Fellow, Adjunct Assistant Professor / December, 2000 — December, 2011

Electro-optics of liquid crystals

Adjunct Associate Professor / January, 2012 — Present

Instructor and Resercher

Graduate Research Assistant / June, 2018 — Present

Graduate Teaching Assistant / January, 2017 — May, 2018

Visiting Scholar/Intern / February, 2015 — July, 2015

Research Officer / January, 2022 — July, 2023

Postdoctoral Research Associate / July, 2023 — Present

Senior R&D Engineer / June, 2025 — Present

Lead selection, development, and qualification of polymeric conductive and interfacial materials while defining coating and bonding processes across porous metallic and polymer substrates ensuring electrical, mechanical, and environmental reliability performance. Own development and qualification of coating and bonding processes on porous and metal substrates defining surface preparation, coating method (cast, coat, infiltrate), cure/dry profiles, and environmental stability criteria to ensure electrical, mechanical, and moisture-barrier performance. Control front-to-end R&D initiatives in advanced materials, thin film deposition, process optimization, and reliability engineering for next-generation AI-chip power-delivery packaging. Drive data-based engineering decisions through DOE design, statistical analysis, and cross-functional failure analysis partnering with suppliers, manufacturing, and quality teams to resolve root causes and implement corrective actions. Conduct advanced materials characterization analysis (SEM/EDS, EIS, TMA, TGA, FTIR, XPS, Raman) to establish structure-property-performance relationships in metal-polymer systems.

Graduate Research Assistant / September, 2021 — June, 2025

Fabricated an ingestible microbial fuel cell powered by Bacillus subtilis endospores featuring a super-hydrophilic PEDOT:PSS hydrogel anode and a newly synthesized oxygen-rich cathode for biocompatible, high-power energy harvesting. Developed a liquid-metal composite bioelectronic interface embedding dormant bacterial spores in eutectic gallium indium (EGaIn) enabling seamless biotic-abiotic charge transfer and mechanical self-healing. Engineered a microfluidic artificial leaf device integrating photosynthetic cyanobacteria for sustainable light-driven power generation and CO2 reduction. Explored bio-synthesized tin oxide (SnO2) nanoparticle coatings on B. subtilis spores improving catalytic activity and electrochemical stability in hybrid bioelectrodes. Synthesized high-performance electrode materials for supercapacitors and flexible energy devices optimizing surface redox activity and ion transport. Designed an additive paper-based fabrication process combining mature papermaking techniques with conductive biopolymers to produce scalable, biodegradable microbial fuel cells.

Intern / May, 2024 — August, 2024

Synthesized and characterized conductive polymers (polyaniline and lithium-functionalized composites) to enhance electrochemical stability in silicon-based battery coatings. Developed and optimized coating formulations integrating conductive carbon nanostructures to improve mechanical flexibility and ionic transport.