Katherine Slovik
About Katherine Slovik
Katherine Slovik is a Senior Research Associate II at Integral Molecular, where she has worked since 2019. She has a strong background in molecular biology and genetics, with expertise in induced pluripotent stem cells and high throughput screening techniques.
Work at Integral Molecular
Katherine Slovik has been employed at Integral Molecular since 2018, initially serving as Research Associate II for 10 months before advancing to Senior Research Associate II in 2021. In her current role, she has accumulated three years of experience. Her work focuses on the generation and differentiation of induced pluripotent stem cells, utilizing her expertise in high throughput screening techniques and flow cytometry. Slovik's contributions to the organization are informed by her extensive background in molecular biology and genetics.
Education and Expertise
Katherine Slovik holds a Master of Engineering (M.Eng.) in Bioengineering and Biomedical Engineering from the University of Pennsylvania, which she completed from 2016 to 2018. Prior to this, she earned a Bachelor of Science (B.S.) in Biology from Temple University from 2009 to 2013. Additionally, she achieved a Post-Baccalaureate at the University of Pennsylvania in 2016. Slovik possesses basic coding knowledge in Python and R, and she is motivated to enhance her skills in bioinformatics and statistics.
Background
Katherine Slovik has a diverse professional background in research and academia. She worked at the University of Pennsylvania School of Medicine as a Research Specialist B from 2013 to 2018, where she gained five years of experience. Before that, she was a Research Technician at Temple University for nine months in 2013 and served as a Research Assistant at the same institution for one year from 2012 to 2013. Her cumulative experience in genome editing technologies spans over five years.
Achievements
Throughout her career, Katherine Slovik has developed a strong foundation in assay design and data analysis. Her extensive experience in high throughput screening techniques and flow cytometry has contributed to her proficiency in generating and differentiating induced pluripotent stem cells. Slovik's commitment to learning new techniques and advancing her professional skills reflects her dedication to the field of biomedical research.