Duncan Reece
Hydrogen is being developed more and more as a sustainable fuel. The combustion of hydrogen produces no carbon emissions and it is suitable for use in gas turbines, internal combustion engines, and fuel cells. However, the primary source of hydrogen is fossil fuels. The focus of my research is developing new ultra-thin films with highly specific structures and properties to improve the efficiency and reaction kinetics of hydrogen production from water electrolysis. Yet, water electrolysis is still too energy-intensive and expensive to compete with current methods. Density functional theory has shown that the slow kinetics of the oxygen evolution reaction, the rate-limiting step of electrolysis, can...
Mitchell Kaiser
My research will focus on self-assembly of organically cross-linked structures of 2D materials for clean energy applications. The 2D semi-conducting and quantum materials have well-defined atomic structure and architecture. Integrating 2D materials with functional organic molecules into well-controlled molecular to nano-scale architectures will lead to novel and synergistic properties and functions. Monolayer or few layer MoS2 will be prepared through mechanical and chemical exfoliation. Organic molecules will be self-assembled on the nanoflakes and cross-linked into layered structures. The unique band structures, limited electrons, and incomplete band bending of such materials will be exploited to realize unique catalytic, transport, and storage properties. In-situ STM, novel...
Kathryn Corp
My objective is to understand kinetic bottlenecks that limit efficiency in metal-free photocatalysts for solar energy conversion. ...
Brandi Cossairt
Professor, Chemistry Email | Web site | LinkedIn CEI-related research interests: Developing new materials for energy-efficient LED technology, solar energy harvesting, and fuels generation ...