ÃÛÌÒ´«Ã½Æƽâ°æÏÂÔØ

JILA and the University of Colorado Boulder are proud to announce that Professor J. Mathias Weber has been elected a Fellow of the American Physical Society (APS), for fundamental contributions to our understanding of molecular interactions and solvation effects in complex systems, obtained via elegant vibrational/electronic laser photodissociation spectroscopy of molecular and cluster ions in the gas phase.

Understanding how molecules interact with ions is a cornerstone of chemistry, with applications from pollution detection and cleanup to drug delivery. In a series of new studies led by JILA Fellow and University of Colorado Boulder chemistry professor Mathias Weber, researchers explored how a specific ion receptor called octamethyl calix[4]pyrrole (omC4P) binds to different anions, such as fluoride or nitrate. These findings provide fundamental insights about molecular binding that could help advance fields such as environmental science and synthetic chemistry.

To understand how EDTA binds to metal ions and water molecules, Madison Foreman, a former JILA graduate student in the Weber group, now a postdoctoral researcher at the University of California, Berkeley, Terry, and their supervisor, JILA Fellow J. Mathias Weber, studied the geometry of the EDTA binding site using a unique method that helped to isolate the molecules and their bound ions, allowing for more in-depth analyses of the binding interactions. They published a series of three papers on this topic. In their first paper, published in the Journal of Physical Chemistry A, they found that the size of the metal ion changes where it sits in the EDTA binding site, which affects other binding interactions, especially with water.

The Weber Group has found what causes rubrene to generate upconversion photoluminescence. By exploring new routes to triplet formation and triplet-triplet annihilation, they learn how organic materials can take lower-energy photons and generate higher energy output, which could have implications for photovoltaics and new electronics.

Leah Dodson won the Miller Prize at the 72nd International Symposium on Molecular Spectroscopy, held June 19–23 in Urbana, Illinois

Graduate student Mike Thompson of the Weber group wants to understand the basic science of taking carbon dioxide (CO2) produced by burning fossil fuels and converting it back into useful fuels. People could then use these fuels to generate electricity, heat homes and office buildings, power automobiles and trains, fly airplanes, and drive the industrial processes of modern life.