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IN SITU PREPARATION AND PROPERTIES OF RUBBER/INORGANIC OXIDE NANOCOMPOSITESMokhothu, Thabang Hendrica 30 October 2014 (has links)
The present paper is concerned with the preparation of a filled elastomer by means the non-conventional bottom-up approach to polymer composites, alternatively with the conventional mechanical compounding of preformed filler particles with rubber. EPDM rubber was modified with in situ generated silica particles prepared by means of a sol-gel process adopting a solution process. The used synthetic procedure permitted the preparation of highly filled rubbers (up to 40 wt% of silica) with silica particle dimensions ranging from 0.2 to 2 μm. Equilibrium swelling and extraction tests indicated a hindering effect of the presence of in situ generated silica on the vulcanization process which reduced the cross-linking degree of the rubber matrix. Both tensile tests and dynamic-mechanical analysis showed a significant improvement in the mechanical properties due to the presence of the reinforcing filler, with an enhancement more significant than that expected from a simple hydrodynamic reinforcing mechanism.
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The discovery of new functional oxides using combinatorial techniques and advanced data mining algorithmsScott, Daniel January 2008 (has links)
Electroceramic materials research is a wide ranging field driven by device applications. For many years, the demand for new materials was addressed largely through serial processing and analysis of samples often similar in composition to those already characterised. The Functional Oxide Discovery project (FOXD) is a combinatorial materials discovery project combining high-throughput synthesis and characterisation with advanced data mining to develop novel materials. Dielectric ceramics are of interest for use in telecommunications equipment; oxygen ion conductors are examined for use in fuel cell cathodes. Both applications are subject to ever increasing industry demands and materials designs capable of meeting the stringent requirements are urgently required. The London University Search Instrument (LUSI) is a combinatorial robot employed for materials synthesis. Ceramic samples are produced automatically using an ink-jet printer which mixes and prints inks onto alumina slides. The slides are transferred to a furnace for sintering and transported to other locations for analysis. Production and analysis data are stored in the project database. The database forms a valuable resource detailing the progress of the project and forming a basis for data mining. Materials design is a two stage process. The first stage, forward prediction, is accomplished using an artificial neural network, a Baconian, inductive technique. In a second stage, the artificial neural network is inverted using a genetic algorithm. The artificial neural network prediction, stoichiometry and prediction reliability form objectives for the genetic algorithm which results in a selection of materials designs. The full potential of this approach is realised through the manufacture and characterisation of the materials. The resulting data improves the prediction algorithms, permitting iterative improvement to the designs and the discovery of completely new materials.
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Photocatalytic thin films : their characterisation and antimicrobial propertiesPage, Kristopher January 2009 (has links)
This thesis is concerned with the synthesis and characterisation of TiO2 based photocatalyst thin films and the assessment of their antimicrobial properties. When exposed to light of wavelength less than 380 nm TiO2 films can demonstrate self-cleaning and self-disinfecting properties. This is due to photocatalytic processes occurring on the film surface resulting in film superhydrophilicity and reactive oxygen species (ROS) production. These ROS and radicals readily oxidise organic pollutants and microbes adherent to the material surface. Consequently, TiO2 thin films are of great research interest as self-cleaning, antimicrobial coatings. TiO2 and doped TiO2 materials were prepared by a simple sol-gel route from titanium n-butoxide as the principle precursor material. Film deposition was carried out using a dip-coating technique, with substrates withdrawn from the precursor sol at a fixed speed. Deposited films were calcined to produce crystalline thin films, with excellent adherence to the substrate (glass slides). Films were characterised using a number of analytical techniques including UV-visible spectroscopy, X-ray diffraction, scanning electron microscopy, atomic force microscopy, X-ray photoelectron spectroscopy and EXAFS/XANES. Photocatalysis and film hydrophilicity were investigated using established methods. Stearic acid photodegradation, monitored by FT-IR was used to assess film photocatalysis, by monitoring the peak areas of the C-H stretching region. Relative film hydrophilicities were determined by measuring the contact angle of a sessile droplet of water. Antimicrobial properties of the films were assessed with typical examples of Gram- positive and Gram-negative organisms. Staphylococcus aureus (NCTC 6571) and Escherichia coli (NCTC 10418) were selected. Films demonstrated microbicidal activity against both organisms under 365nm UV illumination, and under illumination by a typical hospital lamp (28W 2-D fluorescent). Microbial adhesion to various substrates was also examined, using a dip-blot method. Films produced in this study demonstrate excellent potential as durable surface coatings with significant antimicrobial activity against microbes of clinical importance.
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Sulfoxides as an intramolecular sulfenylating agent for indoles and diverse applications of the sulfide-sulfoxide redox cycle in organic chemistry /Jog, Parag V. January 2005 (has links) (PDF)
Thesis (Ph.D.)--Michigan Technological University, 2005. / Includes bibliographical references. Also available on the World Wide Web.
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Chemical speciation of RhIII complexes in acidic, halide-rich media by means of 103Rh NMR spectroscopy : the importance of speciation in the selective separation and recovery of rhodiumGeswindt, Theodor Earl 12 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: In this thesis, the recovery of RhIII from both synthetically prepared and authentic
industrial PGM-containing solutions was systematically investigated via organic precipitation
methods using several commercially available, N-containing organic receptors including
(amongst others) diethylenetriamine (Deta), triethylenetetramine (Teta),
tetraethylenepentamine (Tepa) and tris(2-aminoethyl)amine (Tren). These organic receptors
act as precipitating agents in the presence of an appropriate protonating agent (HCl) by
lowering the solubility of the PGM chlorido-anions through an ion-pairing mechanism. The
recovery of RhIII from synthetically prepared PGM (RhIII and PtIV) containing solutions using
these precipitants was excellent, while poor Rh recovery from authentic industrial process
solutions was achieved. The poor Rh recovery from these process solutions was ascribed to
the species distribution of the [RhCln(H2O)6-n]3-n complexes. In order to validate the
proposition that RhIII speciation effects are responsible for the poor Rh recovery observed
during the precipitation studies, attempt were made to describe the species distribution of the
[RhCln(H2O)6-n]3-n (n=3-6) by means of high-resolution 103Rh NMR spectroscopy.
A detailed high-resolution 103Rh NMR spectroscopic study of the series of
[RhCln(H2O)6-n]3-n (n=3-6) complexes was conducted. During this study, all six RhIII aqua
chlorido-complexes have unambiguously been characterized by means of high-resolution
103Rh NMR spectroscopy, proving the powerful analytical capability of this technique.
Characterization of these complexes is based on the detailed analysis of the 35Cl/37Cl isotope
effects which is observed in the 19.11 MHz 103Rh NMR resonances of the [RhCln(H2O)6-n]3-n
(n=3-6) complexes in aqueous HCl solutions at 292 K. These resonances show that the “finestructure”
of each of the 103Rh resonances may be understood in terms of its unique
isotopologue, and in certain cases, the isotopomer distribution of each complex, which
manifests as a result of its statistically expected 35Cl/37Cl isotopologue and isotopomer
distributions. As a result, the 103Rh NMR resonance structure serves as a unique “NMRfingerprint”,
which allows for the unambiguous assignment of [RhCln(H2O)6-n]3-n (n=3-6)
complexes, without the reliance on accurate δ(103Rh) chemical shifts.
Furthermore, this study reports the first direct species distribution diagram for the
[RhCln(H2O)6-n]3-n (n=3-6) series of complexes (in aqueous HCl solutions at 292 K) as a function of the “free” (unbound) chloride concentration, constructed from 103Rh NMR
measurements. The need for a revised speciation diagram of [RhCln(H2O)6-n]3-n (n=3-6)
complexes is clearly reflected by the vast differences observed in the literature reported
species distribution diagrams, which makes it difficult to decide which set of experimental
conditions (if any) is required for the quantitative and “selective” recovery of RhIII from
aqueous HCl solutions containing associated PGMs (Pt, Pd, Ir, Ru) as well as other transition
metals. The documented species distribution diagrams for RhIII have been generally
constructed via data from indirect (kinetic and spectrophotometric) measurements using
dilute RhIII solutions at relatively high HCl concentrations, which implies that the RhIII:Clmole
ratio is higher than what may be expected in authentic process solutions – an important
aspect to consider when optimizing RhIII recovery methods. In addition, RhIII kinetic
investigations reported in this study shows that ionic strength and temperature effects are
important factors that dramatically influences the rate of RhIII ligand exchange (i.e. RhIII
aquation reactions) which, in turn, have contributing effects on the species distribution of
[RhCln(H2O)6-n]3-n complexes. Notable differences exist between the speciation diagram
reported in this study and those documented in literature, especially at a “free” chloride
concentration of 1.0 M. At this “free” chloride concentration, the [RhCl5(H2O)]2- complex
anion was found to have an abundance of 34%, while literature reports an abundance of 80%.
In order to ascertain its practical relevance, the proposed 103Rh NMR speciation
method was extended, for the first time, to authentic industrial Rh feed solutions (Anglo
Platinum PLC). Each of the 103Rh resonances was unambiguously assigned, and each species
quantified. Moreover, the RhIII species distribution of the industrial Rh feed solution was
accurately predicted by the “direct” speciation diagram constructed form 103Rh NMR
measurements.
After careful optimization of the Heraeus industrial feed solutions (optimal chloride
concentration followed by thermal treatment for enhancing RhIII chloride anation reactions),
the recovery of Rh via precipitation was repeated. In this instance, Rh recovery improved
dramatically, with up to 95% of Rh removed from solution. This improvement is ascribed
primarily to the increased “free” (unbound) chloride concentration. The presence of
associated PGMs as well as other transition metals would lower the effective “free” chloride
concentration, since these metals would act as “chloride binders”. By adjusting the total
chloride concentration, RhIII chloride anation reactions is enhanced which leads to the [RhCln(H2O)6-n]3-n (n=5,6) complex anions being the dominant species in solution, therefore
leading to improved Rh recovery. Moreover, it was shown that, under carefully controlled
conditions, “selective” recovery of Rh is achieved using tris(2-aminoethyl)amine (Tren).
Considering the fact that Rh is the last precious metal recovered in all PGM refineries, this
can possibly provide a cost-effective route for the “upfront” (early stage) recovery of Rh from
industrial PGM feed solutions. / AFRIKAANSE OPSOMMING: In hierdie tesis word die herwinning van RhIII uit laboratorium voorbereide sowel as
ware industriële PGM-bevattende oplossings sistematies ondersoek deur middel van
organiese neerslag metodes, deur gebruik te maak van verskeie kommersieël beskikbare, Nbevattende
organiese reseptore insluitende dietileentriamien (Deta), tri-etileentetramien
(Teta), tetra-etileenpentamien (Tepa) en tris(2-aminoetiel)amien (Tren). Hierdie organiese
reseptore tree op as neerslag-agente in die teenwoordigheid van 'n geskikte protoneringsagent
(in hierdie geval HCl) deur 'n verlaging van die oplosbaarheid van die PGM chloriedanione
deur middel van 'n ioon parings meganisme. Die herwinning van RhIII vanuit
laboratorium voorbereide PGM (RhIII en PtIV) oplossing met behulp van hierdie organiese
neerslag-agente was uitstekend, terwyl Rh herwinning vanuit ware industriële oplossings
swak was. Die onvolledige Rh herwinning uit hierdie industriële oplossings word toegeskryf
aan die spesie-verspreiding van die [RhCln(H2O)6-n]3-n komplekse. Ten einde die effek van
RhIII spesie-verspreiding op die herwinning van Rh te bestudeer, is gepoog om die spesieverspreiding
van [RhCln(H2O)6-n]3-n (n=3-6) komplekse, deur middel van hoë resolusie 103Rh
KMR spektroskopie, te beskryf.
'n Gedetailleerde hoë resolusie 103Rh KMR spektroskopiese studie van die reeks van
[RhCln(H2O)6-n]3-n (n=3-6) komplekse was uitgevoer. Tydens hierdie studie was al ses RhIII
aqua chlorido-komplekse ondubbelsinnig gekarakteriseer deur middel van hoë resolusie 103Rh
KMR spektroskopie, wat bewys lewer van die kragtige analitiese vermoë van hierdie tegniek.
Karakterisering van hierdie komplekse is gebaseer op die gedetailleerde analise van die
35Cl/37Cl isotoop effekte wat waargeneem word in die 19.11 MHz 103Rh KMR resonansies
van die [RhCln(H2O)6-n]3-n (n=3-6) komplekse in HCl oplossings by 292 K. Hierdie
resonansies toon dat die "fyn struktuur" van elk van die 103Rh resonansies verstaan kan word
in terme van die unieke isotopoloog, en in sekere gevalle, die isotopomeer verspreiding van
elke kompleks, wat manifesteer as 'n gevolg van die die statisties verwagte 35Cl/37Cl
isotopoloog en isotopomeer verspreiding. Die 103Rh KMR resonansie-struktuur kan sodoende
dien as 'n unieke "KMR-vingerafdruk", wat voorsiening maak vir die ondubbelsinnige
karakterisering van [RhCln(H2O)6-n]3-n (n=3-6) komplekse, sonder om vertroue op akkurate
δ(103Rh) chemiese verskuiwings te plaas. Hierdie studie rapporteer verder die eerste direkte spesie-verspreiding-diagram vir die
[RhCln(H2O)6-n]3-n (n=3-6) reeks komplekse (in HCl oplossings by 292 K) as 'n funksie van
die "vrye"(ongebonde) chloried-konsentrasie, verkry van 103Rh KMR metings. Die behoefte
vir 'n aangepasde spesiasie-diagram vir die [RhCln(H2O)6-n]3-n (n=3-6) komplekse word
duidelik weerspieël deur die groot verskille waargeneem in die literatuur gerapporteerde
verspreidings diagramme, wat dit moeilik maak om te besluit watter stel eksperimentele
toestande (indien enige) benodig word vir die kwantitatiewe en “selektiewe” herwinning van
RhIII in HCl oplossings in die teenwoordigheid van gepaardgaande PGM (Pt, Pd, Ir, Ru)
sowel as ander oorgangsmetale. Die gedokumenteerde spesie-verspreiding-diagramme vir
RhIII is oor die algemeen verkry via data vanaf indirekte (kinetiese en spektrofotometriese
metings) deur gebruik te maak van verdunde RhIII oplossings in relatiewe hoë HCl
konsentrasies, wat impliseer dat die RhIII:Cl mol verhouding hoër is as wat verwag kan word
in ware industriële proses oplossings - 'n belangrike aspek om te oorweeg gedurende die
optimalisering van RhIII herwinning-metodes. Verder, die RhIII kinetiese ondersoeke
gerapporteer in hierdie studie toon dat ioniese sterkte sowel as temperatuur effekte belangrike
faktore is wat die tempo van RhIII ligand uitruiling (d.w.s. RhIII “aquation” reaksies), wat ‘n
betekenisvolle invloed hê op die spesie-verspreiding van [RhCln(H2O)6-n]3-n komplekse.
Aansienlike verskille bestaan tussen die spesiasie-diagram gerapporteer in hierdie studie en
dit gedokumenteer in die literatuur, veral by 'n "vrye" chloried-konsentrasie van 1.0 M. By
hierdie "vrye" chloried-konsentrasie was die [RhCl5(H2O)]2- komplekse anioon gevind om in
34% teenwoordig te wees (hierdie studie), terwyl die publiseerde verslae 80% rapporteer.
Ten einde die praktiese toepaslikheid van die voorgestelde 103Rh KMR spesiasiemetode
te bepaal, was (vir die eerste keer) ware industriële Rh oplossings (Anglo Platinum
PLC) gebruik. Elk van die 103Rh resonansies was ondubbelsinnig gekarakteriseer, en elke Rh
spesie teenwoordig gekwantifiseer. Daarbenewens is die RhIII spesie-verspreiding van die
industriële Rh oplossing deur die "direkte" spesiasie-diagram saamgestel vanuit 103Rh KMR
metings akkuraat voorspel. Die berekende RhIII spesie-verspreiding van die industriële Rh
oplossings was akkuraat voorspel deur die voorgestelde “direkte” spesiasie-diagram soos
saamgestel vanuit die 103Rh KMR metings.
Na deeglike optimalisering van Heraeus industriële oplossings (optimale chloriedkonsentrasie
gevolg deur termiese behandeling vir effektiewe RhIII chloried anasie reaksies),
is die herwinning van Rh via neerslag metodes herhaal. In hierdie geval, het die Rh herwinning dramaties verbeter, met tot 95% van die Rh uit oplossing verwyder. Hierdie
verbetering is hoofsaaklik toegeskryf aan die verhoogde "vry" (ongebonde) chloriedkonsentrasie.
Die teenwoordigheid van geassosieerde PGM's sowel as ander oorgangsmetale
sal die effektiewe "vrye" chloried-konsentrasie verlaag, aangesien hierdie metale sou optree
as "chloried-binders". Deur die aanpassing van die totale chloried-konsentrasie, word RhIII
chloried anasie reaksies verbeter, wat daartoe lei dat [RhCln(H2O)6-n]3-n (n = 5,6) komplekse
anione die dominante spesies in oplossing word, en dus lei tot verbeterde Rh herwinning.
Daarbenewens word verder aangetoon dat, onder noukeurig gekontroleerde voorwaardes,
"selektiewe" herwinning van Rh bereik word deur gebruik te maak van
tris(2-aminoetiel)amien (Tren). Met inagneming van die feit dat Rh die laaste edelmetaal is
wat verhaal word in alle PGM-raffinaderye, kan dit 'n koste-effektiewe roete word vir die
"vooraf" (vroeë-stadium) herwinning van Rh vanuit industriële PGM bevattende oplossings.
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Application of multivariate regression techniques to paint: for the quantitive FTIR spectroscopic analysis of polymeric componentsPhala, Adeela Colyne January 2011 (has links)
Thesis submitted in fulfilment of the requirements for the degree
Master of Technology Chemistry
in the Faculty of (Science)
Supervisor: Professor T.N. van der Walt
Bellville campus
Date submitted: October 2011 / It is important to quantify polymeric components in a coating because they greatly influence the performance of a coating. The difficulty associated with analysis of polymers by Fourier transform infrared (FTIR) analysis’s is that colinearities arise from similar or overlapping spectral features.
A quantitative FTIR method with attenuated total reflectance coupled to multivariate/ chemometric analysis is presented. It allows for simultaneous quantification of 3 polymeric components; a rheology modifier, organic opacifier and styrene acrylic binder, with no prior extraction or separation from the paint. The factor based methods partial least squares (PLS) and principle component regression (PCR) permit colinearities by decomposing the spectral data into smaller matrices with principle scores and loading vectors.
For model building spectral information from calibrators and validation samples at different analysis regions were incorporated. PCR and PLS were used to inspect the variation within the sample set. The PLS algorithms were found to predict the polymeric components the best. The concentrations of the polymeric components in a coating were predicted with the calibration model.
Three PLS models each with different analysis regions yielded a coefficient of correlation R2 close to 1 for each of the components. The root mean square error of calibration (RMSEC) and root mean square error of prediction (RMSEP) was less than 5%. The best out-put was obtained where spectral features of water was included (Trial 3). The prediction residual values for the three models ranged from 2 to -2 and 10 to -10. The method allows paint samples to be analysed in pure form and opens many opportunities for other coating components to be analysed in the same way.
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