Karsten Krogh-Jespersen

A trusted voice in discussions about molecular electronic structure and computational chemistry, Karsten Krogh-Jespersen is a Professor Emeritus in the Department of Chemistry and Chemical Biology at Rutgers University. With a career spanning several decades, he has made significant contributions to the field through his research and teaching. His work primarily revolves around computational studies of molecular electronic structures, employing both ab initio and semiempirical molecular orbital techniques to unravel complex chemical phenomena. Professor Krogh-Jespersen's research is deeply embedded in collaborative efforts, particularly those funded by the Department of Energy (DOE). His investigations focus on catalytic reactions involving transition metal complexes and small molecule substrates. He has a keen interest in the mechanisms of C-X bond breaking processes and oxygen atom transfer reactions, which are crucial for advancing our understanding of catalytic systems and their applications in sustainable chemistry. In addition to his research, Krogh-Jespersen is dedicated to education, teaching General Chemistry and an introductory course in quantum chemistry for graduate students. He integrates computational assignments into his curriculum, providing students with hands-on experience in applying theoretical concepts to real-world chemical problems. His approach to teaching ensures that students not only grasp fundamental principles but also develop the skills necessary to tackle complex challenges in modern chemistry. Throughout his career, Krogh-Jespersen has published extensively, contributing to a wide array of topics related to his research interests. His publications serve as valuable resources for both the scientific community and students, reflecting his commitment to advancing knowledge and fostering a deeper understanding of chemical processes. As a respected member of the academic community, Karsten Krogh-Jespersen continues to inspire future generations of chemists through his research, teaching, and mentorship. His work exemplifies the integration of theoretical and practical approaches in chemistry, paving the way for innovations in catalytic processes and molecular design.