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The mechanism of oxidation by benzeneseleninic anhydride李孝治, Lee, Hau-chi. January 1991 (has links)
published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
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Electron microscopy studies of doped vanadium phosphorus oxide catalystsDelimitis, Andreas January 2002 (has links)
No description available.
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The removal of ammonia and phenol by hydrophobic catalystHuang, Tung-Li January 1999 (has links)
No description available.
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Optical monitoring of surface processes relevant to thin film growth by chemical vapour depositionSimcock, Michael Neil January 2002 (has links)
No description available.
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Catalytic oxidation of carbon monoxide and dimethyl ether synthesis over gold-containing catalystsNtho, Thabang Abraham 27 June 2008 (has links)
In recent years, the catalytic properties of finely dispersed gold particles on oxide support
materials have attracted much attention. Such catalysts are active for several types of
oxidation reactions, in particular low-temperature carbon monoxide oxidation. The watergas-
shift (WGS) reaction and the selective oxidation of CO in the presence of hydrogen
are possible applications of gold-based catalysts.
In this thesis we attempted to detail the key issues relevant to the deactivation of
supported gold catalysts. A new aspect of the CO oxidation deactivation mechanism was
comprehensively discussed. It was found that titanate nanotube supported gold catalyst
(Au/TN), prepared by deposition precipitation, deactivated due to the formation of
bicarbonate species on gold-sites. Moisture prevented the formation and accumulation of
these species and also promoted the reaction. The Au/TN catalyst was characterised by
HRTEM, in-situ DRIFTS-Mass spectrometry, BET, etc.
Titanium dioxide (TiO2) is widely used as support material for various important
industrial catalysts and its modification may suite specific catalytic requirements. In this
work we have confirmed that the incorporation of nitrogen (N) into TiO2 increases the
concentration of oxygen ion vacancies. When tested for CO oxidation, the nitrogendoped
titania supported gold catalyst, Au/TiO2-xNx, was found to be a poor and unstable
catalyst compared to the pure titania supported gold catalyst, Au/TiO2. Both catalysts
were characterised by XRD, Raman spectroscopy, DRS-UV visible spectroscopy, TPO,
BET, HRTEM etc.
New Cu-based methanol synthesis catalysts, prepared by co-precipitation and deposition
precipitation, were physically mixed with _-Al2O3 and tested for the direct single-step
DME synthesis from syngas. The catalysts exhibited good CO conversion and DME
selectivity. The loading of gold on the methanol synthesis components of the bifunctional
catalysts promoted CO conversion and the WGS reaction. In addition, Au suppressed
iv
methanation on the bifunctional catalysts. The catalysts were characterised by TPR,
XRD, BET and XRF spectroscopy.
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Advanced Oxidation of Tris-2-Chloroethyl Phosphate (TCEP) in WaterNguyen, Huong 28 April 2011 (has links)
Tris-2-chloroethyl phosphate (TCEP) is a biorecalcitrant flame retardant and plasticizer. It is a toxic and carcinogenic compound that is frequently detected in wastewater effluents and water bodies, including those used for drinking water, around the world. Due to the incomplete removal of TCEP from current wastewater and drinking water treatment facilities, effective treatment processes must be identified that will remove TCEP from water. This research investigated the effectiveness of Fenton's oxidation for removing TCEP from water. In laboratory scale experiments, batch reactions of aqueous TCEP solutions were conducted at different pH conditions and dosages of H2O2:Fe2+:TCEP molar ratios. Samples were tested at pH values ranging from 2.5 to 4.5 and H2O2:Fe2+:TCEP molar ratios from 5.0:0.5:1 to 200:5.0:1. TCEP concentrations were quantified by solid phase micro-extraction (SPME) followed by gas chromatography (GC). Complete removal of TCEP was achieved at equilibrium conditions with a molar ratio dose of 150:5:1 H2O2:Fe2+:TCEP. The kinetics of TCEP removal were also investigated. Pseudo-first order rate constants for TCEP removal were obtained. The effectiveness of ozonation was also investigated in this research. Batch reactions of aqueous TCEP at different doses of ozone were conducted at pH 7.0 ± 0.1. Ozonation was found to have no effect on the degradation of TCEP.
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Periodate oxidation of cellulose - a complete kinetic studyChandan, Bhaskar Arjundev 26 October 1988 (has links)
The effect of over-oxidation on periodate oxidation
of cellulose was studied. It was found that the over-oxidation
process has a significant effect on the overall
reaction. An integrated rate equation was formulated.
The oxidation of internal glucose units is second-order
overall, first order with respect to both periodate and
cellulose; while the oxidation of the reducing end group
is first order overall, that with respect to periodate.
It was also found that prolonged oxidation degrades
cellulose to a considerable extent, which is thought to be
the direct result of random chain scission. The periodate
breaks up cellulose polymer into fragments, some of which
are so small that they go into the solution. / Graduation date: 1989
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Applications of the microwave-enhanced advanced oxidation processChan, Winnie Weng I 11 1900 (has links)
Municipal wastewater treatment using biological nutrient removal generates large
amounts of waste sludge. An effort is made to solubilize nutrients from sludge and reuse
them in subsequent processes. The microwave-enhanced advanced oxidation (MW/H₂O₂-AOP)
process using hydrogen peroxide as the oxidant was applied to the treatment of
different organic slurries including wasted sludge, blood meal, and fish silage.
The factors controlling phosphates, ammonia, and COD release into solution included
inorganic acid addition, hydrogen peroxide dosage, treatment times and temperatures.
Higher dosages and treatment temperatures yielded better solubilization of phosphates
and ammonia. It was found that approximately all of the COD was solubilized at a
treatment temperature of 80°C. Volatile fatty acid (VFA) concentrations were also found
to have increased with the amount of inorganic acid added into treatment. Up to 25% of
soluble COD was composed of acetic acid.
Higher irradiation levels tended to be more effective in the solubilization of nutrients. In
terms of trends of particle size distribution, detectable particles increased in size in acidic
conditions, with the largest fraction of larger particles in a given sample being the
treatment with highest irradiation power. In neutral condition treatments, the higher the
irradiation power provided to the samples, the more spread out the particle sizes range. In
alkaline condition treatments, an increase in smaller particles were found after treatment;
higher power irradiation yielded significantly higher numbers of smaller particles. This
study provided an insight into the athermal effects of theMW/H₂O₂-AOP.
Blood meal solubilization for the purpose of its application as an organic feritilizer was
investigated using theMW/H₂O₂-AOP. It was found that over the treatment temperature
range of 60 to l20C, solids particle reduction, ammonia and orthophosphate production
were achieved. Maximum solubility of chemical oxygen demand (COD) occurred at 80°C.
Without the addition of acid, soluble COD decreased due to protein denaturation and
coagulation out of the solution.
Fish silage is also a valuable fertilizer for organic greenhouse hydroponics operations, but
a pretreatment step is required. It was found that up to 26% of total Kjeldahl nitrogen
could be released as ammonia with 6% hydrogen peroxide dosage at 170°C. An increase
of nitrate/nitrite concentration was observed with higher hydrogen peroxide dosage and
higher microwave temperature.
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Synthesis, reactivities, and electrochemistry of osmium complexes with macrocyclic tertiary amine and multianionic amide and schiff-base ligands /Cheng, Wing-kin. January 1989 (has links)
Thesis (Ph. D.)--University of Hong Kong, 1989.
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Oxidation chemistry of Cis- and trans-dioxo complexes of ruthenium李志強, Li, Chi-keung. January 1991 (has links)
published_or_final_version / Chemistry / Doctoral / Doctor of Philosophy
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