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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Investigations of Reversible Thermochromism in Three-Component Systems

Bourque, Alexander 27 March 2014 (has links)
Thermochromic materials undergo temperature-dependent colour changes. Although there are several origins of thermochromism, two distinct types of thermochromism are common in thermochromic mixtures. Melt-lightened thermochromism occurs when the colour density of a mixture decreases with increasing temperature, and is usually associated with colour loss upon mixture melting. Melt-darkened thermochromism occurs when the colour density of a mixture increases with increasing temperature, and is usually associated conversion from a decoloured solid state to a coloured melt. Three-component thermochromic systems generally consist of a leuco dye (minor component), a phenolic colour developer (intermediate component), and a high melting-point organic solvent (dominant component). In these systems, the colouring behaviour is controlled by competing binary interactions, with the dye:developer interaction responsible for colour formation and the developer:solvent interaction responsible for colour erasure. In the present study, three-component mixtures composed of CVL (dye), long-chain alkyl gallates (phenolic developer), and long-chain alkyl alcohols (long-chain solvent) were examined. The thermochromic behaviour (i.e., melt-lightened vs. melt-darkened thermochromism) of these mixtures was examined as a function of the matching of the alkyl chain length of the gallate developer and alcohol solvent. When the alkyl chain lengths were well matched, the developer:solvent interaction dominated in the solid state and melt-darkened thermochromism was observed. When the alkyl chain lengths were poorly matched, the dye:developer interaction dominated in the solid state, and melt-lightened thermochromism was observed. The colour density of the molten state was determined by the developer:dye molar ratio, with high molar ratios yielding coloured melts and low molar ratios yielding decoloured melts. Additional studies employing chemically dissimilar developers and solvents (e.g., bisphenol A with 1-hexadecanol) yielded mixtures that displayed optimal melt-lightened thermochromism. The high solid-state colour density due to weak developer:solvent interactions provides further evidence that competing binary interactions are responsible for the colouring behaviour observed for three-component thermochromic systems. Ternary thermochromic phase diagrams were used to define compositional regions of optimal thermochromic behaviour (i.e., high colour contrast), providing a useful experimental tool for the rapid identification of ideal sample compositions. Additionally, an examination of the properties of thermally erasable ink-jet printer inks was carried out during the present study. / An assessment of the thermochromic behaviour of three-component chemical systems comprising a colour-changing leuco dye, an electron-accepting phenolic developer, and a long-chain alkyl alcohol solid solvent.
2

BIOMEDICAL APPLICATION OF THERMOCHROMIC LIQUID CRYSTALS AND LEUCO DYES FOR TEMPERATURE MONITORING IN THE EXTREMITIES

Rao, Nilin M., Ph.D. 14 December 2016 (has links)
No description available.

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