Description

This fellowship opportunity at the National Institute of Standards and Technology (NIST) focuses on advancing measurement science for biotherapeutics and cell-based therapies using microfluidic lab-on-a-chip technologies. The research addresses the challenge of why different measurement principles—referred to as "orthogonal measurements"—sometimes yield significantly different results. Key research areas include particle characterization (such as protein aggregates relevant to biotherapeutics) and cell viability assessments critical for cell therapies and biomanufacturing.

Applicants will develop and apply techniques that perform simultaneous measurements on individual particles, leveraging methods such as microsecond flash photography (including fluorescence), image analysis, and electrical signal detection (resistance and capacitance). Projects may also explore simulating the injection of biotherapeutics into humans using microfluidic chip systems to analyze behavior and mechanisms underlying aggregation and cell viability states.

Due to the interdisciplinary nature of this research, applicants from diverse scientific and engineering backgrounds—including chemistry, biology, physics, materials science, and engineering—are encouraged to apply.