I am a

Bioengineer specializing in 3D cell culture, microfluidics, and stem cell differentiation. I build complex in-vitro models, engineer biomaterials, and develop computational frameworks—deploying this multidisciplinary toolkit to solve intersecting biological, chemical, and mechanical challenges in regenerative medicine. Currently leading R&D at Cytiva.

Regenerative Med
Organ-on-Chip
High-Throughput
Experience
2025 — Present

Scientist

Cytiva · Logan, UT

Leading R&D initiatives in upstream bioprocessing and cell culture media optimization. Designing experimental workflows for scalability and reproducibility.

2020 — 2025

Graduate Research Assistant

University of Notre Dame

Engineered synthetic biomaterials for lymphatic morphogenesis. Developed high-efficiency stem cell differentiation protocols utilizing novel hydrogel composites.

2018 — 2020

Graduate Research Assistant

Southern Illinois University

Focus on Mechanical Engineering and material characterization. Conducted finite element analysis on biological tissues.

Education
PhD in Bioengineering University of Notre Dame
MS in Mechanical Eng. Southern Illinois University
BS in Mechanical Eng. BUET
Technical Expertise

Experimental & Wet Lab

Confocal Microscopy Expert
qRT-PCR Expert
Flow Cytometry Expert
Bioprinting Advanced

Computational & Engineering

Python (Analysis) Expert
ImageJ / FIJI Expert
MATLAB Advanced
SolidWorks Intermediate
Selected Projects
Stem Cells
iPSC to LEC Differentiation

Rapid stem cell to lymphatic endothelial cell differentiation protocol using lentiviral transduction. Achieved >95% efficiency.

Stem Cells Vascular Biology
Microscopy
Bioelectric Regulation of Cell Fate

Uncovering bioelectric mechanisms (ion channels, Vmem) that orchestrate mesodermal-to-endothelial cell fate decisions.

Bioelectricity Ion Channels
Photography
Visit Portfolio
Rocky Mountains
Album Rocky Mountains
Nature Detail
Album Utah Nature
Foggy Forest
Album Morning Mist
Lake Reflection
Album Yosemite
Patents
Multi-parameter Tunable Synthetic Matrix for Engineering Lymphatic Vessels PCT/IB2024/057334
Synthetic Hyaluronic Acid-Dopamine Coatings PCT/US2024/040065
Selected Publications
Tuning the Morphological Properties of Granular Hydrogels Adv. Mat. Interfaces · Montes, D., Saha, S., et al.
2025
Multi-parameter tunable synthetic matrix for engineering lymphatic vessels Comm. Bio · Alderfer, L., Saha, S., et al.
2024
Robust Differentiation of Human Pluripotent Stem Cells into LECs Cells Tissues Organs · Saha, S., et al.
2024
Synthetic hyaluronic acid coating preserves phenotypes Biomaterials Science · Saha, S., et al.
2023
The Effects of Preeclamptic Milieu on Cord Blood Derived Endothelial Colony-Forming Cells bioRxiv · Hall, E., Saha, S., et al.
2023
View Full List on Google Scholar →
What They Say

"...Sanjoy led cutting-edge research resulting in impactful publications... His leadership was instrumental in spearheading the development of a pending patent for novel Biomaterials... one of the articles was selected as a front cover in journal Biomaterials Science."

Donny Hanjaya-Putra · University of Notre Dame

"...incredibly helpful, knowledgeable, and hard working. He is able to clearly communicate ideas, is skilled in data interpretation and analysis, and is able to juggle multiple projects at the same time."

Eva Hall · University of Notre Dame
Upcoming Work
Calcium Signaling and Membrane Potential Dynamics Govern iPSC-to-Endothelial Differentiation
Numerical Modeling of Fluid Exchange Between a Collecting Lymphatic Vessel and Surrounding Tissue