Browsing by Subject "Liquid crystals"
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Item Applications of self-assembly : liquid crystalline semiconductors and DNA-conjugated microparticles(2012-12) Tang, Hao, 1985-; Willson, C. Grant, 1939-Self-assembly provides an efficient way to build complex structures with great flexibility in terms of components and properties. This dissertation presents two different forms of self-assembly for technical applications. The first example is the molecular assembly of liquid crystals (LCs). Attaching appropriate side chains on anthracene, oligothiophene, and oligoarenethiophene successfully constructed liquid crystalline organic semiconductors. The phase transitions of the LC semiconductors were analyzed by differential scanning calorimetry (DSC) and polarized optical microscopy (POM). The effect of the LC phase change on charge transport was probed by the space-charge limited current (SCLC) method and the field-effect transistor (FET) method. Mobility in the LC phase rose in anthracenyl esters but decreased in oligothiophenes and oligoarenethiophenes. The different electronic behavior of LC semiconductors may be caused by the difference in domain size and/or the difference in response to electric field. The second example of self-assembly in this dissertation is DNA-guided self-assembly of micrometer-sized particles. Patternable bioconjugation polymers were synthesized to allow for lithographic patterning and DNA conjugation. The base pairing of DNA was then used to drive the self-assembly of DNA-conjugated particles. The DNA conjugation chemistry was studied in detail using a fluorescence-based reaction test platform. The conjugated DNA on the polymer surface retained its ability to hybridize with its complement and was efficient in binding microspheres with complementary strands. Highly specific bead-to-bead assembly was analyzed using imaging flow cytometry, and the fractions of self-assembly products were explained on the basis of chemical equilibrium. The process of particle fabrication using photolithography was successfully developed, and the self-assembly of lithographically-patterned particles was demonstrated. We envision that the technologies described in this dissertation will be useful in a variety of fields ranging from microelectronics to biotechnology.Item Effects of nanoconfinement on structure and properties of side-chain liquid crystalline polymers(2013-12) Gonzalez Garza, Paola Anaid; Ellison, Christopher J.Semi-crystalline polymers have shown increased crystalline order and size when confined in multilayered films by coextrusion1. The resulting large crystals lead to dramatic improvements in gas barrier properties. Ordered polymers whose characteristics are between that of the liquid phase and the crystalline phase are known as liquid crystalline polymers. The highly ordered mesogens in liquid crystalline polymers contribute to their exceptional bulk properties. In this research, side-chain liquid crystalline polymers were confined in multilayered films, made by either multilayer coextrusion or spin coating, with a non-liquid crystalline polymer in an attempt to improve the ordering of the liquid crystalline mesogens. The liquid crystalline behavior and morphology was studied to understand the correlation between the confinement size and the properties of the multilayer films. Commercial main chain liquid crystalline polymers and hydrogen bonded liquid crystalline polymers were also explored in this research for their use in multilayer coextrusion.Item Organic materials for microelectronics : 157 nm photoresists and electrooptic liquid crystals(2001-12) Hung, Raymond Jui-pu, 1969-; Willson, C. G. (C. Grant), 1939-