Oxidation processes play an integral role in many industries, but questions still remain regarding the mechanisms of carbon-hydrogen bond activation and oxidation in free-radical and catalyzed processes. Microkinetic modeling is a powerful tool capable of examining oxidation processes at the mechanistic level to gain understanding and guide catalyst applications. This...
It is pertinent now more than ever that we find sustainable alternatives to produce chemicals. For decades, scientists and engineers have turned to biological systems to help meet societal needs in energy, medicine, materials, and moreespecially when chemical synthesis is untenable. Often, biologically-produced small molecules are insufficient for production at...
Pressure swing adsorption (PSA) is a promising technology for carbon capture and sequestration (CCS). However, while there has been much interest in PSA process development, the choice of adsorbent for the separation is just as important as the process configuration. Therefore, it is important to develop PSA processes in conjunction...
The use of biomass as a feedstock for fuels and chemicals has been a long-standing challenge and opportunity for the chemical and basic materials industries. In order to unlock the value of biomass, it is necessary to first deconstruct its structural polymers, cellulose, hemicellulose, and lignin, into low molecular weight...
Mixed oxides including SiO2', 'and supported oxides on SiO2', 'comprise the majority of', 'heterogeneous catalysts employed in the chemical industry. SiO2', '-Al2O3', 'and microporous,', 'crystalline variants called zeolites have been used widely since the 1960s in petroleum', 'processing, commodity chemical production, and fine chemical synthesis [1]. SiO2', 'supported', 'TiOx catalysts...
The ability to efficiently sense and respond to molecular signals is crucial for any organism's survival. Sensitive, specific and timely, microbial sensing systems provide an excellent starting point for the engineering of single-celled organisms to detect new molecules of human interest. Towards this goal, our lab pursues the engineering of...
Computational models greatly benefit metabolic engineering efforts by helping to elucidate experimental observations and predict engineering targets for improved cellular performance. Additionally, supplementing experimental efforts with computational modeling can reduce the loss of time and resources in the lab by narrowing down testing conditions. In optimal cases, computational models can...
The rational and deliberate assembly of functional materials from nanoscale building blocks requires a fundamental understanding of interactions between individual components as well as their collective behavior. This thesis investigates the hierarchical organization of nanoparticles using DNA into well-defined three-dimensional materials on the micrometer and millimeter length scales. This assembly...
Graphene and graphene oxide (GO), a highly oxidized form of graphene, are materials with incredibly interesting chemical and mechanical properties. These materials have high surface areas and electrical properties that can be tuned by reducing the amount of oxygenates on the surface. They have already demonstrated their importance in the...
Individuals commonly engage in collaborative behavior to more easily produce works of high societal impact. The effect of many individual characteristics such as age or gender on the effectiveness of a team is still unclear. Gender is especially pertinent because many professional settings are still far from gender parity, despite...