about
I am a Ph.D. candidate in Materials Science and Engineering at Johns Hopkins University, advised by Prof. Timothy P. Weihs. My research is rooted in experimental physical metallurgy with a strong drive to connect processing, structure, and property relationships across lightweight structural, biomedical, and reactive materials.
π¬ Research Philosophy
My research philosophy is rooted in engineering microstructures and defects (from grain boundaries to vacancy clusters) to create materials that are simultaneously mechanically robust, corrosion-resistant, and biocompatible. I combine thermomechanical processing and severe plastic deformation with advanced characterization to uncover fundamental mechanisms and translate them into scalable, cost-effective processing strategies.
While my dissertation focuses on biodegradable magnesium alloys for medical implants, my broader research portfolio spans:
- Vacancy-induced solute clustering in Mg alloys, linking point defects to microstructural stability and performance.
- Reactive Al-based materials designed for controlled ignition and energy release.
- In vivo studies on aluminum release and toxicity, bridging in vitro testing with biological response.
- Collaborations in ML-guided alloy and process design, where data-driven tools accelerate processing optimization.
Ultimately, my goal is to connect atomic-scale mechanisms with application-driven performance, advancing materials that perform reliably in biomedical, aerospace, and energy environments.
Learn more about my projects in Research β.
π Collaborations & Impact
I thrive at the interface of academia, industry, and national labs:
- National Labs: PNNL (APT, PAS), NIST (alloy development, microscopy)
- Industry: Fort Wayne Metals (biomedical wire systems)
- Academic Networks: Virginia Tech, University of Utah, Monash University, AI-X Foundry (JHU), Washington State University Pullman
This ecosystem accelerates my goal of turning bench-scale science into real-world solutions. Details on my team and mentorship efforts are in Mentorship β and Service β.
π Quick Snapshot
- π― Lead Student Organizer, TMS 2026 Symposium on Vacancy Engineering in Metals and Alloys
- ποΈ Discussion Leader, GRS Physical Metallurgy 2025
- βοΈ Co-Guest Editor, JOM Special Issue on Mg Alloys
- π° Editorial Advisor-in-Training, TMS Magnesium Committee
- π Rodbell Fellow, multiple TMS travel awards, JHU Graduate Research fellowship
- π 8+ peer-reviewed publications, 14+ presentations
- π€ Mentored 11+ undergrad & high-school researchers
- π¬ Co-authored interdisciplinary studies in combustion materials, bio-corrosion modeling, and vacancyβsolute interactions
πΆ Beyond the Lab
- πΌ Trained in Indian classical music
- π Play cricket & π table tennis
- πΊ Avid fan of crime & investigative TV shows
- π§ Podcasts on geopolitics, history, and sports highlights