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Electrochemical actuation potential of diaminophenazine linked pyrrole derivativesWard, Meryck January 2013 (has links)
>Magister Scientiae - MSc / A novel monomer (Phenazine-2,3-diimino(pyrrole-2-yl)–PDP) derived from the condensation reaction between 2,3-diaminophenazine and a pyrrole derivative has
been synthesized as a hinge molecule in the design of a zig-zag polymer with actuation
possibility. The monomer was polymerized chemically and electrochemically to produce
the new polymer material – polymerized Phenazine-2,3-diimino(pyrrole-2-yl) PPDP.
Two very crucial properties of a good actuator material, relate specifically to its
solubility testing and electrical conductivity. The hinged polymer material was studied
intensively in terms of its spectroscopy; Fourier Transform Infrared - FTIR, 1H’NMR,
thermal properties (Differential Scanning Calorimetry-DSC and Thermogravimetric
Analysis-TGA) as well as voltammetry and conductivity. Conductivity was evaluated
using three different approaches including; 4 probe measurements, plotting of I/V
curves based on potentiostatic measurements and an electrochemical impedance
experiment using a dielectric Solartron interface. Electrochemical kinetics of the
polymer prepared as a thin film at glassy carbon electrode (GCE) was also done and it
was clear that the thin film conductivity was vastly different from the compressed pellet
conductivity (thick film). The zig-zag polymer was then further modified by homogeneous inclusion of gold nanoparticles to improve conductivity and solubility, in
the thick film arrangement. Conductivity of the thin film was studied by electrochemical
impedance spectroscopy with the relative charge transfer values being determined for
unmodified and modified polymer systems. The solubility testing of the material plays
an important role as it is required for a wide range of experimental applications. The
zig-zag polymer showed great promise for applications; in dye sensitized solar cells and
free standing interpenetrating polymer network (IPN), solubility testing and electrical
conductivity would need to be improved in order to be used in these applications.
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Development of Schiff base electrochemical sensors for the evaluation of polycyclic aromatic hydrocarbons in aqueous mediumWard, Meryck January 2017 (has links)
Philosophiae Doctor - PhD / A novel monomer (N,N'-Bis-(1H-pyrrol-2-ylmethylene)-benzene-1,2-diamine-BPPD) was
derived from the condensation reaction between o-phenylenediamine and a pyrrole derivative. The
monomer was polymerized electrochemically to produce the new polymer material -
polymerized(N,N'-Bis-(1H-pyrrol-2-ylmethylene)-benzene-1,2-diamine) PBPPD. This novel
polymer material was deposited at the surface of a screen-printed carbon electrode, as a thin film,
in the development of chemical sensors for the detection of polycyclic aromatic hydrocarbons
(PAHs). The monomer material was characterized in terms of its optical (spectroscopy) and
thermal properties. The polymer material was characterized in terms of its surface morphology
and its redox electrochemistry. Fourier transform infrared spectroscopy (FTIR) was used to
confirm the azomethine bond formation during the condensation reaction of an aldehyde and
primary amine derivative. / 2020-08-31
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