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A Bit About Me

Hi there! I am a graduate student pursuing an M.S. in Engineering and Management at MIT's school of Engineering and Sloan school of Management, graduating in 2023.

I also hold a B.S. in Mechanical Engineering from Olin College of Engineering.


My professional experience has been in R&D and early stage product development in biotechnology, aerospace, and robotics. I excel in end-to-end system design and development, bringing concepts to life, while coordinating cross-functional teams.

I am passionate in representing the voice of the user throughout the R&D and product development process. And am striving toward more equitable and accessible design in low and high tech solution spaces.

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2018 - 2020

Funded by NIH’s National Center for Advancing Translational Sciences (NCATS), the aim of this project was to analyze the effects of microgravity and other space-related stressors on the brain blood barrier and gastrointestinal tract using Emulate's Organ-Chips.


Our team developed an automated instrument that ran biological experiments

during launch, travel and station on the International Space Station.


design and development

how to: lab in a box

engineering architecture

From a list of biology requirements, I designed the engineering architecture that supported twelve organ-chips over ten experiment days while fitting within a box the size of a toaster oven. Functionality included pumping at even and low flow rates, valve logic, effluent sampling and storage, temperature control, and telemetry management.

 [see patent in biological sampling, media recirculation and pumping]


engineering integration and verification

Integration required careful coordination involving the biology team, Space Tango (external partner), and various vendors. Coordination considered cell seeding schedules, Space Tango's delivery of CubeLab functionality, hardware sterility and infrastructure setup within BL2+ labs​, and engineering viability. Executing a fully integrated BioEngineering Verification Test (BioEVT) involved complex forecasting and contingency plans. 

Before running a BioEVT and moving into a BL2+ lab involving bunny suits and biosafety cabinets, I ran benchtop verification tests to meet engineering metrics. This involved building assembly protocols, writing experimental software and running non-biology experiments.

the team