Jess Nauman PhD
About Jess Nauman PhD
Jess Nauman, PhD, is the Long Range Planner – Associate Director at Bristol Myers Squibb in New Brunswick, New Jersey, with extensive experience in chemical engineering and biologics network planning.
Title
Jess Nauman, PhD currently holds the position of Long Range Planner – Associate Director at Bristol Myers Squibb. In this role, Jess employs comprehensive planning strategies to manage long-term goals and objectives for the company.
Current Roles at Bristol Myers Squibb
Jess Nauman, PhD serves as both a Long Range Planner – Associate Director and a Senior Supply Network Planner at Bristol Myers Squibb in New Brunswick, New Jersey. These roles involve managing long-term planning and overseeing supply network operations, ensuring alignment with company goals and operational capabilities.
Past Professional Experience
Jess Nauman, PhD has held various positions in the fields of engineering and research. He served as Operations Analysis Manager - Product Development at Bristol Myers Squibb from 2017 to 2018. Earlier, he was a Post Doctoral Researcher at Carnegie Mellon University (2005-2007), an ATO Process Engineer at DuPont (1997-2000), a Quality Engineer at Baxter Healthcare (1996), and a Laboratory Technician at Burroughs Wellcome (1993-1994). Each role added to his diverse background in chemical engineering and operations management.
Education and Academic Background
Jess Nauman, PhD achieved his Doctor of Philosophy in Chemical Engineering from Carnegie Mellon University, Pittsburgh, PA, where he studied from 2000 to 2005. Prior to this, he completed his Bachelor of Science in Chemical Engineering with a focus on Biochemistry at North Carolina State University, Raleigh, NC, graduating in 1996.
Expertise in Long-term Planning and Biologics Networks
Jess Nauman, PhD has extensive expertise in managing and operating long-term planning software, particularly for biologics networks. He excels in bridging organizational objectives with operational capabilities, ensuring efficient delivery of multiple concurrent projects within budget and time constraints.