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...
The promise of next-generation electronics, which combines features such as mechanical flexibility, optical transparency, and relatively low-cost, has stimulated tremendous research efforts during the past few years. As perhaps the most fundamental component of an electronic circuit, the design and optimization of the thin film transistor (TFT) is of great...
Novel materials and nanostructures with superior electro-mechanical properties are emerging in the development of novel devices. Engineering application of these materials requires accurate electro-mechanical characterization, which in turn requires development of novel experimental techniques. This dissertation outlines the investigation of the mechanical and electrical properties of one-dimensional nanomaterials.
One-dimensional nanomaterials...
The dependence of the electro-optic (EO) properties on the field-dependent domain structure in epitaxial polydomain BaTiO<sub>3</sub> thin films was investigated. Models of both the field-dependent electronic polarization and the EO response and their dependence on domain structure were developed. The agreement of these models with measured polarization and EO data...
Advancements in nanotechnology have led to the production of devices with components with sub-100 nm size scales. Studies have investigated how properties of polymers change when confined to nanoscale dimensions. However, stiffness-confinement studies have reported increases, decreases, and invariance with confinement for different polymer/substrate pairs, making it difficult to obtain...