The focus of this thesis is the design of non-natural molecules for use in biological applications. Chapter one details a strategy to use small molecules to reactivate mutated p53, an oncoprotein that is prevalent in several types of cancer, back to its wild-type function. Wild-type p53 has the ability to...
This thesis demonstrates the use of dual-beam focused ion beam - scanning electron microscopy (FIB-SEM) for making complete three-dimensional reconstructions of SOFC electrodes in order to better understand the links between processing and performance with respect to microstructure. Sufficient compositional contrast, with nano-scale resolution, between Ni and LSM with respect...
Peptide Amphiphile (PA) molecules developed in the author's laboratory and others have shown great versatility in creating self-assembled nanostructures with built-in biological and/or chemical functionalities. Their applications in spinal cord injury repair, angiogenesis, promoting cell adhesion and templating inorganic materials have also been well studied. Complementing previous compositional studies, where...
PRC is a PGC-1 coactivator family member responsive to serum growth factors and up regulated in proliferating cells. Unlike PGC-1α and PGC-1β, PRC has not been studied extensively and and its function or regulation remains largely unknown. Both PGC-1α and PGC-1β have been shown to be important regulators of mitochondrial...
Previous research has shown that creative insight problem-solving is distinct from systematic analytical problem-solving. Behaviorally, a positive mood has shown to facilitate insights but without knowing the processes that are fundamental to insight, the mechanisms as to how a positive mood facilitates insights have remained unspecified. Here, we investigate the...
This thesis discusses the synthesis, self-assembly, and conductivity properties of novel oligothiophene derivatives with an emphasis on how molecular structure effects the assembly. In order to facilitate self-assembly in conjugated molecules, specific non-covenant forces were included into the molecular design of several derivatives. First, an amphiphilic oligothiophene derivative consisting of...
The work described in this dissertation focuses on the development of a general approach to create nanoscale transition metal chalcogenide materials and new methods for controlling architecture of gold pyramidal structures. In the former, we used chemical nanofabrication, a combination of top-down patterning and bottom-up solid-state synthesis, to achieve control...
Predictive modeling has emerged as a new research subject that studies a broad range of modeling techniques to provide confident prediction of the phenomenon of interest by integrating scientific principles together with both computer models and observed physical experiments. Motivated by overcoming the existing challenges, the objective in this dissertation...
Why do the institutional outcomes of armed separatist conflicts vary? Separatist conflicts have diverse institutional effects. Though many separatists hope to create sovereign states, few achieve their aims. More often, their conflicts lead to forms of intra-state autonomy, independent but unrecognized de facto states, or territories under foreign occupation. These...
<span style="font-family: Calibri;">BaNa-Y is a catalyst for reduction of nitrogen oxides (NO and NO<sub>2</sub>) with added reductants at temperatures of ~200 °C. Studies were performed over BaNa-Y and related catalysts to unravel the roles that nitrates and nitrites play in determining the processes and pathways involved in NOx reduction. <o:p></o:p></span></p>...