Nipun Goel
About Nipun Goel
Nipun Goel is an R&ED Scientist at Bristol-Myers Squibb in Cambridge, Massachusetts, with extensive experience in biotechnology and health sector management.
Current Position at Bristol-Myers Squibb
Nipun Goel is currently working at Bristol-Myers Squibb in Cambridge, Massachusetts, United States. He holds the position of R&ED Scientist, where he focuses on large-scale expression workflows and reagent delivery for in-vivo and stability analysis. Nipun has been with the company since October 2012 and plays a significant role in integrating automation into expression workflows by developing methods for Janus, Biomek NXp, and Opentron robots.
Previous Experience at Aerotek Scientific
Nipun Goel worked as an Upstream Process Development Consultant at Aerotek Scientific for one year from 2011 to 2012. His role was based in the Greater Boston Area, where he focused on upstream process development, contributing to advancements in scientific practices within the organization.
Research Background at Harvard Medical School
Between 2009 and 2011, Nipun Goel served as a Research Associate in Transplant Immunology at Harvard Medical School, BIDMC. In this role, he worked in the Greater Boston Area, contributing to pivotal research in transplant immunology, enhancing scientific understanding in this field.
Educational Background in Biotechnology
Nipun Goel holds an Engineering degree in Biotechnology from Panjab University, completed in 2006. He furthered his expertise by achieving a Professional Science Master's in Biotechnology from Northeastern University, completed in 2009. Additionally, he attained a Master of Business Administration (MBA) with a focus on Health Sector Management from the Questrom School of Business at Boston University, completed in 2017.
Experience with Automation Technologies
In his role at Bristol-Myers Squibb, Nipun Goel leads the integration of automation into expression workflows. He has developed methods for robots such as Janus, Biomek NXp, and Opentron, enhancing the efficiency and precision of large-scale expression workflows. This experience underscores his technical expertise and innovative approach to scientific research and development in the healthcare sector.