KIChE is an organization that aims “to promote constructive and mutually beneficial interactions among Korean Chemical Engineers in the U.S. and facilitate international collaboration between engineers in the U.S. and Korea.”
Hammer will offer a course on COVID-19 and the coronavirus pandemic during Penn’s Summer II session, which will be held online this year. The course will be co-taught with Miriam Wattenbarger, senior lecturer in CBE.
The course, “Biotechnology, Immunology, and COVID-19,” will culminate with a case study of the coronavirus pandemic including the types of drugs proposed and their mechanism of action, as well as the process of vaccine development.
“Obviously, the pandemic has been a life-altering event, causing an immense dislocation for everyone in our community, especially the students. Between me and Miriam, who has been trumpeting the importance of vaccines for some time in her graduate-level CBE courses, we have the expertise to inform students about this disease and how we might combat it,” says Hammer.
For more than ten years, Wattenbarger has run courses and labs focused on drug delivery and biotechnology, key elements of the vaccine development process.
“I invite both researchers and industry speakers to meet with my students,” Wattenbarger says, “so that they learn the crucial role engineers play in both vaccine development and manufacturing.”
Beyond studying the interactions between the immune system and viruses — including HIV, influenza, adenovirus and coronavirus — students will cover a variety of biotechnological techniques relevant to tracking and defending against them, including recombinant DNA technology, polymerase chain reaction, DNA sequencing, gene therapy, CRISPR-Cas9 editing, drug discovery, small molecule inhibitors, vaccines and the clinical trial process.
Students will also learn the mathematical principles used to quantify biomolecular interactions, as well as those found behind simple epidemiological models and methods for making and purifying drugs and vaccines.
“We all have to contribute in the ways that we can. Having taught biotechnology to freshmen for the past decade, this is something that I can do that can both inform and build community,” says Hammer. “Never has it been more important to have an informed and scientifically literate community that can fight this or any future pandemic.”
The Department of Bioengineering is proud to congratulate Whelton Miller, Ph.D., a former BE Postdoctoral Fellow, on his appointment as an Assistant Professor in the Department of Medicine in the Health Sciences Division at Loyola University. Miller’s appointment began in January 2020.
Miller received his B.S. in Biochemistry in 2001 from the University of Delaware where he worked under the supervision of Dr. Douglass F. Taber. After graduation, he worked in industry as a synthetic organic chemist for a pharmaceutical company. After three years of industry experience, he returned to academia to complete a Ph.D. in Theoretical/Computational Chemistry from the University of the Sciences in Philadelphia in 2012.
After graduate school, he was given a unique opportunity through Penn’s Postdoctoral Opportunities in Research and Teaching (PennPORT) program, an NIH-sponsored, Institutional Research and Academic Career Development Award (IRACDA) postdoctoral fellowship. In addition to Miller’s responsibilities through the PennPORT program, he served on the Biomedical Postdoctoral Council (BPC), as well as chair of the Engineering PostDoc Association (EpoD). He has worked closely with the Physician Scientist Training Program (PSTP) as a mentor to a high school student, as well as a program guest speaker. This allowed Miller to be a Postdoctoral Research Fellow in the Department of Bioengineering at Penn in the Radhakrishnan Lab – led by BE Department Chair Ravi Radhakrishnan – which focuses on the interface between chemical physics and molecular biology.
Miller has also gained experience in various affiliated appointments, serving as an Assistant Professor in the Department of Chemistry and Physics at Lincoln University (2015-2019), and is currently an Adjunct Assistant Professor in the Department of Chemical and Biomolecular Engineering (CBE) at Penn and an Adjunct Professor in Biomedical Engineering at the University of Ghana in Accra.
Miller joined Loyola University in Chicago, IL in the summer of 2019. Now in his new faculty position, Miller continues to work on collaborative research projects and include colleagues at Instituto Tecnológico de Santo Domingo, the University of Pennsylvania, Lincoln University, University of Ghana, and the University of the Sciences. His current research involves using computational chemistry techniques for theoretical design and study of organometallic and inorganic compounds, protein ligand interactions, and structural electronic effects. His goal is to employ several computational techniques to understand, as well as predict, molecular interactions, such as protein-ligand interactions and protein-protein interactions. Miller says he is always looking forward to more opportunities for minority student development and enrichment in the STEM-related disciplines. Congratulations, Dr. Miller!
Ravi Radhakrishnan has been named Chair of the Department of Bioengineering.
Radhakrishnan holds joint appointments in the Department of Bioengineering and the Department of Chemical and Biomolecular Engineering. He is a founding member and the current Director of the Penn Institute for Computational Science, as well as a member of the Penn Physical Sciences in Oncology Center, Institute for Translational Medicine and Therapeutics, and several graduate groups, including Materials Science and Engineering, Genomics and Computational Biology, and Biochemistry and Molecular Biophysics.
In addition to these roles at Penn, Radhakrishnan holds many editorial board positions in the research community, including Nature Publishing’s Scientific Reports.
Beyond being a passionate teacher and advocate for his students, Radhakrishnan’s research interests lie at the interface of chemical physics and molecular biology. His lab’s goal is to provide molecular level and mechanistic characterization of biomolecular and cellular systems and formulate quantitatively accurate microscopic models for predicting the interactions of various therapeutic agents with innate biochemical signaling mechanisms.