Pengfei Tian
About Pengfei Tian
Pengfei Tian is a Research Fellow at the National Institutes of Health in Bethesda, Maryland, where he has focused on the molecular dynamics of proteins for nearly a decade. He previously held research positions at several institutions, including the University of Copenhagen and Lund University.
Current Role at National Institutes of Health
Pengfei Tian has been working as a Research Fellow at the National Institutes of Health (NIH) since 2014. His research primarily focuses on the molecular dynamics of proteins. Over the past decade, he has developed a physical and mathematical model specifically designed for studying these dynamics. His work contributes to a deeper understanding of protein behavior, which is crucial for various applications in biochemistry and medicine.
Previous Experience in Research and Academia
Prior to his current position, Pengfei Tian held several research roles. He worked as a Research Fellow at the University of Copenhagen for three months in 2014. He also served as a Visiting Scholar at Lund University for three months in 2012. Additionally, he was a Research Assistant at the Technical University of Denmark from 2010 to 2011. His academic journey includes a PhD at the University of Copenhagen, where he focused on Physics from 2011 to 2014.
Educational Background in Physics and Mathematics
Pengfei Tian has a strong educational background in Physics and Mathematics. He earned a Bachelor of Applied Science in Applied Mathematics from Northwestern Polytechnical University from 2004 to 2008. He then pursued a Master's degree in Mathematical Modeling, Engineering, and Mechatronics at Ier | Sdu from 2008 to 2010. His doctoral studies at the University of Copenhagen from 2011 to 2014 culminated in a Doctor of Philosophy degree.
Research Focus on Molecular Dynamics
At the National Institutes of Health, Pengfei Tian has been involved in research centered on the molecular dynamics of proteins for nearly ten years. His work includes the development of models that analyze protein behavior at a molecular level. This research is significant for understanding the fundamental processes that govern protein interactions and functions.