Graduate student in Chemical Engineering at MIT developing 10x cheaper systems for green hydrogen production.
Previously worked on carbon-neutral synthetic fuel at Terraform Industries and materials research at Berkeley and Stanford.
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Academic Publications
Work History
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Graduate Student, MIT Chemical Engineering (Aug 2023–Present)
- Researching electrochemical systems for low-cost hydrogen in the Brushett group.
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Chemical Engineer, Terraform Industries (May 2022–Jul 2023)
- Designed Sabatier reactor producing 10 Nm³/hr methane from air-captured CO₂ and green hydrogen.
- Performed detailed GC analysis confirming >99% CO₂ conversion.
- Developed kinetic and thermodynamic models for reactor design.
- Supported recruiting, investor outreach and business development.
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Undergraduate Researcher (Long Lab), UC Berkeley (Nov 2019–Jul 2023)
- Studied functionalized porous aromatic frameworks for removing arsenic and chromium from water (paper).
- Work spun out into ChemFinity Tech.
- Combined experimental and computational approaches.
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Vice President, UC Berkeley Biofuels Technology Club (May 2022–May 2023)
- Organized club projects and outreach around biofuels technology.
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Research Intern (Cargnello Lab), Stanford University (Jun 2018–Aug 2019)
- Investigated metal nanoparticle sintering on oxide supports.
- Developed Si and ZrO₂ nanocapsule reactors with embedded catalysts (paper).
Interests & Background
I am part of the Brushett Research Group at MIT, where I explore electrochemical systems that can drive down the cost of green hydrogen. My background spans direct air capture and catalytic reactor design.