Structure control over soft matter on a molecular through nanoscopic lengthscale is a vital tool to optimizing properties for applications ranging from energy (solar and thermal) to biomaterials. Crystal and grain structure effects on bulk conductivity, and nanometer lengthscale pattern of internal interfaces as vital to charge separation and recombination in photovoltaic and light emission effects. Functionality gain of biological materials from structures ranging from monomeric sequence thr...| UCSB College of Engineering
UC Santa Barbara chemical engineering professor Rachel Segalman has received a distinguished honor within the scientific community by being elected a Fellow of the American Association for the Advancement of Science (AAAS), a commendation bestowed upon less than 1 percent of AAAS members each year. She is among 471 scientists, engineers, and innovators who comprise the 2024 Class of AAAS Fellows. The association is the world’s largest general scientific society and publishes the Science ...| chemengr.ucsb.edu
UC Santa Barbara chemical engineering professor Rachel Segalman has received a distinguished honor within the scientific community by being elected a Fellow of the American Association for the Advancement of Science (AAAS), a commendation bestowed upon less than 1 percent of AAAS members each year. She is among 471 scientists, engineers, and innovators who comprise the 2024 Class of AAAS Fellows. The association is the world’s largest general scientific society and publishes the Science ...| www.chemengr.ucsb.edu