Agnieszka Chojnowski
About Agnieszka Chojnowski
Agnieszka Chojnowski is a scientist at Bristol Myers Squibb in Summit, New Jersey, specializing in high concentration monoclonal antibody formulations and impurity identification techniques.
Current Role at Bristol Myers Squibb
Agnieszka Chojnowski serves as a Scientist at Bristol Myers Squibb, located in Summit, New Jersey, United States. In this role, she executes research projects, develops methodologies, and participates in process development activities, ensuring the effective implementation of scientific techniques and analysis.
Previous Positions at Bristol Myers Squibb
Agnieszka Chojnowski previously held the position of Associate Research Scientist at Bristol Myers Squibb in Hopewell, New Jersey, for six months in 2019. During this period, she focused on the refinement of research methodologies and provided substantive contributions to various research projects.
Experience at Montclair State University and Sokol Institute
Agnieszka Chojnowski's extensive experience includes multiple positions at Montclair State University and Sokol Institute. She worked as a Research Scientist at the Sokol Institute from 2014 to 2019, and as a Graduate Assistant at Montclair State University from 2010 to 2012. Additionally, from 2009 to 2014, she held the role of Research Assistant at the Sokol Institute. Her journey at Montclair State University began as an Undergraduate Student Researcher in 2009.
Educational Background in Chemistry and Biochemistry
Agnieszka Chojnowski achieved a Master of Science degree in Chemistry with a Biochemistry Concentration from Montclair State University. She also holds a Bachelor's degree in Biochemistry from the same institution. This educational background provided her with a solid foundation in scientific research and specialized techniques.
Expertise in Analytical Techniques and Process Development
Agnieszka Chojnowski specializes in subvisible characterization of high concentration formulations using the FlowCam technique. She has developed methods for impurity identification and characterized samples for critical projects. She has contributed to the development of high concentration monoclonal antibody formulations and executed viscosity measurements for fusion proteins. Her work routinely includes the use of size exclusion chromatography, differential scanning fluorimetry, and ultraviolet absorption spectroscopy. Additionally, she has provided subject matter expertise in techniques such as Capillary Electrophoresis Sodium Dodecyl Sulfate.