Professor Daniel Tabor

Remsen Hall 233

Professor Daniel Tabor, Texas A&M University Building Physics-Based and Data-Driven Methods for Efficient Polymer Design and Spectroscopy Simulations Abstract: Our research group focuses on building tools that enable inverse materials design and give new insights into the fundamental chemical physics of liquids, interfaces, and materials. For this talk, we will discuss our progress in two […]

Professor Hans Renata

Remsen Hall 233

Professor Hans Renata, Rice University Abstract: By virtue of their unrivaled selectivity profiles, enzymes possess remarkable potential to address unsolved challenges in chemical synthesis. The realization of this potential, however, has only recently gained traction. Recent advances in enzyme engineering and genome mining have provided a powerful platform for identifying and optimizing enzymatic transformations for […]

Professor Ted Sargent

Remsen Hall 233

Professor Ted Sargent, Northwestern University Materials chemistry for optoelectronics and for decarbonization Abstract: Emerging materials – such as quantum dots, perovskites, and metal and metal oxide nanoparticles – are urgently needed to advance both consumer electronics and large-scale decarbonization of electricity, fuels, and chemicals. I will discuss recent advances in light sensors, solar photovoltaics, and in […]

Ira Remsen Memorial Lecture

Remsen 101

Steven Sibener, University of Chicago A Multiscale View of Dynamical Processes at Surfaces using Molecular Beam Scattering, In Situ Scanning Probe Imaging, and Molecular Dynamics Simulations Abstract: This presentation will highlight recent contributions from our group in the areas of surface chemistry and gas-surface interactions. Information derived from molecular beam scattering experiments, in situ scanning […]

The Ephraim and Wilma Shaw Roseman Seminar Series presents Professor Grant Rotskoff

Remsen Hall 233

“Building efficient and transferable generative models of intrinsically disordered protein conformational ensembles” Professor Grant M. Rotskoff, Stanford University ABSTRACT: Nearly half of the proteome is intrinsically disordered, consisting of proteins or motifs that lack a stable secondary structure. Modeling these regions remains challenging, even with tremendous advances in generative models for protein structure prediction. Sampling […]