Eran Rabani
About Eran Rabani
Eran Rabani is an Associate Editor for Nano Letters and a Professor at Tel Aviv University, where he has contributed to the academic community for over 25 years. He specializes in molecular modeling and nanomaterials, holding a Ph.D. in Theoretical Chemistry from The Hebrew University.
Current Role at American Chemical Society
Eran Rabani serves as an Associate Editor for Nano Letters, a journal published by the American Chemical Society. In this role, he focuses on the peer review process and editorial decisions related to research in nanoscience and nanotechnology. His expertise in the field contributes to the journal's mission of disseminating high-quality research findings.
Current Position at Tel Aviv University
Rabani holds the position of Director at The Sackler Center for Computational Molecular and Materials Science at Tel Aviv University. He has been in this role since 2015. Additionally, he has been a Professor at the university since 1999, contributing to both teaching and research in the fields of chemical physics and computational science.
Academic Background and Education
Eran Rabani studied at The Hebrew University, where he completed a Bachelor of Science (B.Sc.) in a Special Program Amirim from 1988 to 1991. He further pursued advanced studies in Theoretical Chemistry, achieving a Doctor of Philosophy (Ph.D.) from 1992 to 1996. This strong educational foundation supports his extensive research and teaching career.
Previous Academic Positions
Rabani has held several academic positions prior to his current roles. He worked as a Visiting Professor at Harvard University from 2000 to 2003 and served as a Research Scholar at Columbia University from 1996 to 1999. He also held the position of Visiting Miller Professor at UC Berkeley in 2010-2011. His diverse experiences in various prestigious institutions have enriched his academic profile.
Expertise in Molecular Modeling and Nanomaterials
Eran Rabani has expertise in molecular modeling, which involves simulating molecular behavior to understand properties and interactions. He is also involved in the study of nanomaterials, focusing on materials with nanoscale structures. His background in computational physics further enhances his ability to analyze and solve complex physical problems in these fields.