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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.
41

Pyridine and amine functionalized polymers by anionic and controlled free radical polymerization methods

Ndawuni, Mzikayise Patrick 07 1900 (has links)
The synthesis of dipyridyl functionalized polysulfones with improved hydrophilicity, enhanced membrane morphology and excellent ATRP polymeric ligand properties was conducted by the following method: (a) the formation of lithiated polysulfone from unmodified polysulfone and the subsequent reaction with 2,2'-vinylidenedipyridine in tetrahydrofuran at -78 oC under argon atmosphere to afford the corresponding dipyridyl functionalized polysulfone. The stoichiometry of the reaction affects the degree of functionalization of the product. When equimolar amounts of 2,2'-vinylidenedipyridine are added to the lithiated polysulfone, the degree of functionalization obtained was 45%. However, the addition of 10% and 20% molar excess of 2,2'-vinylidenedipyridine to the corresponding lithiated polysulfone produced dipyridyl functionalized polysulfones with degrees of functionalization of 80% and 95%, respectively; and (b) the membranes obtained from unmodified polysulfone as well as dipyridyl functionalized polysulfones were characterized by atomic force microscopy, scanning electron microscopy, pure water permeation measurements and contact angle measurements. Amine chain end functionalized polystyrene and poly(methyl methacrylate) were prepared by Atom Transfer Radical Polymerization (ATRP) methods as follows: (a) •-Aminophenyl functionalized polystyrene was prepared in quantitative yields by ATRP methods using a new primary amine functionalized initiator adduct, formed in situ by the reaction of 1-(4-aminophenyl)-1-phenylethylene and (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as catalyst in diethyl ether at 110 oC, for the polymerization of styrene.(b) New •-bis(aminophenyl) and •,ω-tetrakis(aminophenyl) functionalized polymers were prepared in quantitative yields by the ATRP method using the following synthetic strategy: (i) the initiation of styrene polymerization with a new primary diamine functionalized initiator adduct, generated in situ by the reaction of stoichiometric amounts of 1,1-bis(4-aminophenyl)ethylene with (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as catalyst, afforded •-bis(aminophenyl) functionalized polystyrene; and (ii) •-bis(aminophenyl) functionalized poly(methyl methacrylate) was prepared by the ATRP method using the primary diamine functionalized initiator adduct as initiator for methyl methacrylate polymerization; and (iii) well defined •,ω-tetrakis(aminophenyl) functionalized polystyrene was prepared by the post ATRP chain end modification reaction of •-bis(aminophenyl) functionalized polystyrene with 1,1-bis(4-aminophenyl)-ethylene at the completion of the polymerization reaction. (c) Similarly, •-bis(4-dimethylaminophenyl) functionalized polystyrene was prepared by using a new tertiary diamine functionalized initiator adduct, formed in situ by treatment of equimolar amounts of 1,1-bis[(4-dimethylamino)phenyl]-ethylene with (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as the catalyst in diphenyl ether at 110 oC for the initiation of styrene polymerization by the ATRP method. Furthermore, the ATRP of methyl methacrylate, initiated by the new tertiary diamine functionalized initiator adduct, produced •-bis(4-dimethylaminophenyl) functionalized poly(methyl methacrylate). In addition, •,ω-tetrakis(4-dimethylaminophenyl) functionalized polystyrene was synthesized via a post ATRP chain end modification reaction of •-bis(4-dimethylaminophenyl) functionalized polystyrene with equimolar amounts of 1,1-bis[(4-dimethylamino)phenyl]ethylene at the completion of the polymerization process. vi Quantitative yields of the different amine functionalized polymers with predictable number average molecular weights (Mn = 1.3 x 103 – 16.4 x103 g/mol), narrow molecular weight distributions (Mw/Mn = 1.03 – 1.29) and controlled chain end functionality were obtained. Polymerization kinetics data was employed to determine the controlled/living character of each ATRP reaction leading to the formation of the different amine chain end functionalized polymers. The polymerization processes were monitored by gas chromatographic analyses. Polymerization kinetics measurements for all reactions show that the polymerizations follow first order rate kinetics with respect to monomer consumption. The number average molecular weight of the amine functionalized polymers increases linearly with percentage monomer conversion and polymers with narrow molecular weight distribution were obtained. The ATRP of styrene, catalyzed by a novel dipyridyl functionalized polysulfone/CuBr supported catalyst system, afforded well defined polystyrene with predictable number average molecular weight and narrow molecular weight distribution in a controlled/living free radical polymerization process. The substituted 1,1-diphenylethylene initiator precursor derivatives and the functionalized polymers were characterized by nuclear magnetic resonance spectrometry, fourier transform infrared spectroscopy, thin layer chromatography, column chromatography, size exclusion chromatography, non-aqueous titrations, differential scanning calorimetry and thermogravimetrical analysis. / Chemistry / M. Sc. (Chemistry)
42

Μελέτη τροποποιημένων πολυμερικών μεμβρανών για χρήση σε κυψελίδες καυσίμου αγωγής πρωτονίων και εφαρμογές διαχωρισμού αερίων

Χουρδάκης, Νικόλαος 27 December 2010 (has links)
Η παρούσα διδακτορική διατριβή αποτελείται από δύο ξεχωριστές ενότητες οι οποίες έχουν σαν στόχο τη μελέτη τροποποιημένων πολυμερικών μεμβρανών για χρήση σε κυψελίδες καυσίμου αγωγής πρωτονίων και σε εφαρμογές διαχωρισμού αερίων. Στην πρώτη ενότητα έγινε εκτίμηση του μοριακού προσανατολισμού μονοαξονικά εφελκυσμένων πολυμερικών μεμβρανών Nafion-115 με τη βοήθεια πολωμένων φασμάτων UV-Raman. Πειράματα δυναμικής μηχανικής ανάλυσης επαλήθευσαν τις προσδοκίες για βελτίωση των μηχανικών ιδιοτήτων του πολυμερικού ηλεκτρολύτη κατά μήκος της διεύθυνσης εφελκυσμού. Η θερμική ανάλυση των δειγμάτων με τις τεχνικές της διαφορικής θερμιδομετρίας σάρωσης και της θερμοσταθμικής ανάλυσης δεν έδειξε κάποια ιδιαίτερη διαφοροποίηση μεταξύ εφελκυσμένων και μη δοκιμίων Nafion-115, πέραν της βελτίωσης της ικανότητας των τανυσμένων μεμβρανών να συγκρατούν το όποιο νερό υπάρχει στο ιονομερές. Μικρή ήταν η αύξηση της ιοντικής αγωγιμότητας που παρατηρήθηκε στα τανυσμένα δείγματα κατά μήκος της διεύθυνσης εφελκυσμού. Η προσπάθεια τροποποίησης του Nafion® με διαξονικό εφελκυσμό είχε σαν αποτέλεσμα τη λήψη λεπτών πολυμερικών ηλεκτρολυτικών μεμβρανών με αποτελεσματικότερες ιδιότητες στην τάση διέλευσης της μεθανόλης, σε σχέση με τις μη τροποποιημένες μεμβράνες. Επιπρόσθετα, με τον ελεγχόμενο διαξονικό και σταθερού πλάτους μονοαξονικό εφελκυσμό κατέστη δυνατό να επιτευχθεί η εξισορρόπηση των ποσοστών διαστολής κατά το μήκος και πλάτος της επιφάνειας του Nafion, μετά τον εμποτισμό του με νερό. Όσον αφορά στην τροποποίηση του Nafion με εναπόθεση στοιβάδας αγώγιμου πολυμερούς πολυανιλίνης (PAni) ή πολυπυρρόλης (PPy) με ενσωματωμένα αντισταθμιστικά ιόντα SO42- ή Nafion-, η φασματοσκοπική μελέτη, μέσω ATR-FTIR, σε συνδυασμό με τις μικροφωτογραφίες SEM που ελήφθησαν, οδήγησαν στα εξής συμπεράσματα: Για τις σύνθετες μεμβράνες Nafion/PAni που παρασκευάστηκαν με την τεχνική της διάχυσης, από τη μία ελήφθησαν δείγματα με ικανοποιητική συνάφεια μεταξύ του κυρίως όγκου της πολυμερικής μεμβράνης Nafion και της PAni, από την άλλη όμως, υπάρχει και κάποιο ποσοστό μονομερούς ανιλίνης (Ani) που εγκλωβίζεται στο εσωτερικό του Nafion, και μάλιστα σε σημαντικό βαθμό, που εξαρτάται από το χρόνο σύνθεσης. Αντίθετα, οι αντίστοιχες μελέτες στις μεμβράνες Nafion/PPy δε φανερώνουν την ύπαρξη διείσδυσης της PPy ή του μονομερούς στην κύρια μάζα του Nafion, ή τουλάχιστον όχι σε τέτοιο βαθμό που να μπορεί να ανιχνευθεί μέσω της τεχνικής που χρησιμοποιήθηκε. Ιδιαίτερο είναι το ενδιαφέρον που προκύπτει από τις φασματοσκοπικές μετρήσεις στην πλευρά του σύνθετου πολυμερούς όπου εναποτίθετο το πολυμερισμένο αγώγιμο υλικό, καθώς με το χρόνο σύνθεσης παρατηρούνται μετατοπίσεις κορυφών του Nafion προς χαμηλότερες συχνότητες, υποδεικνύοντας ενδεχόμενη αλληλεπίδραση με το αγώγιμο πολυμερές. Στη δεύτερη ενότητα μελετήθηκαν οι σύνθετες (ή “mixed matrix”) πολυμερικές μεμβράνες πολυσουλφόνης (PSF) με ενσωματωμένες φυλλώδεις αργυλοφωσφορικές νανονιφάδες τύπου AlPO. Αρχικά πραγματοποιήθηκε η σύνθεση των νανονιφάδων AlPO. Με στόχο τη βελτίωση της συμβατότητάς τους με την πολυμερική μήτρα έγινε παρεμβόλιση με κατάλληλη επιφανειοδραστική ουσία και χαρακτηρισμός με XRD που έδειξε τη διεύρυνση της απόστασης μεταξύ των διαδοχικών στρωμάτων του κρυστάλλου από 9Å σε 33Å περίπου. Στη συνέχεια παρασκευάσθηκαν οι σύνθετες μεμβράνες με διαφορετικές συγκεντρώσεις της ανόργανης φάσης, με τη μέθοδο του film casting. Με βάση τις εικόνες SEM οι νανονιφάδες φαίνεται να έχουν ικανοποιητική διασπορά στη μάζα της πολυσουλφόνης, ενώ τα φάσματα XRD δείχνουν πως η ενσωμάτωση των παρεμβολισμένων νανονιφάδων στην πολυμερική μήτρα δεν επέφερε κάποια σημαντική αλλαγή στη δομή τους. Οι νανονιφάδες, ακόμα και σε μικρές συγκεντρώσεις, βελτιώνουν σε σημαντικό βαθμό τη διαχωριστική ικανότητα των αμιγώς πολυμερικών μεμβρανών για τα ζεύγη αερίων H2/N2 και Η2/CH4 όχι όμως και για το ζεύγος Η2/CO2. Αντίθετα, η αύξηση του ποσοστού των νανονιφάδων AlPO οδηγεί σε μείωση της διαπερατότητας του H2. Oι σύνθετες μεμβράνες PSF/AlPO δείχνουν μια μικρή βελτίωση του μέτρου ελαστικότητας αποθηκευόμενης ενέργειας σε σχέση με τις πολυμερικές μεμβράνες PSF, εμφανίζουν επίσης ελαφρώς μειωμένη θερμοκρασία υαλώδους μετάβασης και, κατά τη θέρμανσή τους, ακολουθούν τρία στάδια απώλειας μάζας λόγω αποσύνθεσης της επιφανειοδραστικής ουσίας σε συνδυασμό με απώλεια φυσικά και χημικά ροφημένου νερού. / The present thesis consists of two separate parts which focus on the study of modified polymer membranes for use in fuel cells applications and gas separation processes. In the first part, the molecular orientation of uniaxially drawn Nafion-115 membranes was estimated utilizing polarized UV-Raman spectra. Dynamic mechanical analysis revealed the enhanced strength of the drawn samples along the draw axis. Thermal analysis, carried out via differential scanning calorimetry, and thermogravimetric analysis did not show any difference between drawn and undrawn specimens, except from a slight enhanced capability of the drawn membranes to water content retain. Proton conductivity is slightly enhanced along the stretching direction, as well. The attempts for biaxial stretching of Nafion® had as a result the production of very thin polymer electrolyte membranes with lower permeability to methanol than the commercial one. In addition, with biaxial and constant width uniaxial stretching, the swelling of Nafion along and across its surface can be controlled. The process of modifying Nafion by embedding conducting polymer layers of polypyrrole or polyaniline with SO42- or Nafion- incorporated into the film as counter-ions is studied via ATR-FTIR spectroscopy in combination with SEM microphotographs. Nafion/PAni composite membranes synthesized by the diffusion method showed very good adherence between Nafion and PAni layers but it seems that there is some Ani monomer still remaining inside the bulk structure of Nafion, depending on the time of synthesis. In contrast, the corresponding studies on Nafion/PPy membranes show that there is no penetration of PPy or Py inside Nafion, at least not to the extent that it could be traced using ATR-FTIR spectroscopy. The spectroscopic measurements from the conducting polymer side show red-shifts of absorption bands of Nafion revealing possible specific interactions with the conducting polymer. In the second part, composite (or mixed matrix) polymeric membranes with dispersed aluminophosphate nanoflakes were studied. At the beginning AlPO nanoflakes were synthesized. To enhance the compatibility with the polymer matrix conventional AlPO nanoflakes were intercalated using suitable surfactant. XRD characterization showed a further individual layers` separation since the distance between them is increased from 9Å to 33Å. Subsequently, mixed matrix membranes with different nanoflakes loading were synthesized, using film casting method. Based on SEM images nanoflakes seem to be well dispersed in the mass of polysulfone, while XRD graphs implied that the incorporation of intercalated nanoflakes into the polymer matrix did not affect their structural characteristics. Nanoflakes incorporation, even at very low concentrations, improves the H2/N2 and H2/CH4 selectivity and deteriorates the H2/CO2 selectivity compared with the pure polymer. On the other hand, the higher the percentage of the AlPO flakes, the more pronounced the decrease in hydrogen permeability. PSF/AlPO membranes exhibit improved storage modulus, appear to have slightly lower glass transition temperature compared with PSF membranes and during their heating, follow a three steps mass loss due to the surfactant decomposition and the loss of physically and chemically absorbed water.
43

Etude de polymères pour l'utilisation en membranes de piles à combustible / Study of proton conducting polymeric membranes for use in fuel cells

Besson, Arthur 17 December 2014 (has links)
Les piles à combustible sont une technologie en pleine expansion dans le domaine du transport automobile.Les membranes polymères les plus utilisées actuellement dans ces systèmes sont celles à base de Nafion.Leur principal point faible se trouve dans leurs performances limitées au-delà de 80°C, où la membranedevient défaillante et l'eau ne peut plus assurer la conduction protonique. Le projet EUBECELL se proposede résoudre ce problème en mettant au point un système de pile à combustible fonctionnant à l'éthanol et àplus de 120°C. Cette thèse s'inscrit dans ce projet et se concentre sur l'élaboration de nouvelles membranespolymères conductrices de protons. Deux voies sont envisagées : l'amélioration des propriétés du Nafion àhaute température et le remplacement du Nafion par un polymère haute performance auquel on donne uneconductivité.L'amélioration du Nafion se fait par l'ajout de conducteurs liquides ioniques protiques (CLIPs), produitsayant donc une conductivité protonique venant s'ajouter à celle du Nafion. Un premier CLIP est synthétisé,caractérisé puis ajouté au Nafion et les performances des membranes obtenues mesurées. Les résultatsencourageants obtenus incitent à synthétiser d'autres CLIPs à partir de la même amine et en variant le contreion.D'autres mélanges Nafion-CLIPs sont ainsi synthétisés et caractérisés.Les polymères hautes performances étudiés ici pour remplacer le Nafion sont dans un premier temps despolysulfones sulfonées. Les polysulfones étant des polymères qui résistent aux températures élevées et lasulfonation leur donnant une conductivité. Pour conserver de meilleures propriétés après sulfonation, nousprocédons à une extrusion du film polymère suivi d'une sulfonation. Nous mettons donc au point unprotocole de sulfonation hétérogène. Les membranes obtenues sont ensuite caractérisées et leursperformances mesurées. Dans un deuxième temps nous travaillons sur des membranes macroporeuses, àforte tenue mécanique, que nous remplissons avec les CLIPs utilisés auparavant. Les membranes sont alorsaussi caractérisées et leurs performances mesurées. / Fuel cells are an ever-expanding technology in the field of automotive transport. The polymer membranesthat are currently the most widely used are Nafion-based membranes. Their weakest point is their drastic lossof performances beyond the threshold of 80°C, where the membranes fails and water cannot ensure protonconduction anymore. The EUBECELLproject sets to achieve making a fuel cell system functioning above120°C and using ethanol as a fuel. This thesis is part of the project and focus on elaborating new protonconductingpolymer membranes. Two main ways are explored: improving the performances of Nafion athigh temperature and replacing Nafion with conductivity-added high-performance polymers.Improving Nafion's performances is achieved by adding proton conducting ionic liquids (PCILs), productsthat have a proton conductivity that adds to Nafion's own. A first PCIL is synthesized, characterized and thenadded to Nafion, the resulting membranes' performances then measured. The encouraging results that weobtain makes us synthesize more PCILs, from the same amine than the first, varying the counter-ion. OtherNafion-PCIL mixes are made and then characterized.The high-performance polymer investigated for replacing Nafion are, first, sulfonated polysulfones.Polysulfones are high-temperature resistant polymers and sulfonation gives them conductivity. To keep betterproperties after the sulfonation, we proceed to extrude the films before sulfonating them. We elaborate anheterogeneous sulfonation protocol for them. The resulting membranes are then characterized and theirperformances measured. Second, we work on macroporous membranes, with high mechanical strength,which we fill with the PCILs that we previously used. The membranes are then also characterized and theirperformances measured.
44

Pyridine and amine functionalized polymers by anionic and controlled free radical polymerization methods

Ndawuni, Mzikayise Patrick 07 1900 (has links)
The synthesis of dipyridyl functionalized polysulfones with improved hydrophilicity, enhanced membrane morphology and excellent ATRP polymeric ligand properties was conducted by the following method: (a) the formation of lithiated polysulfone from unmodified polysulfone and the subsequent reaction with 2,2'-vinylidenedipyridine in tetrahydrofuran at -78 oC under argon atmosphere to afford the corresponding dipyridyl functionalized polysulfone. The stoichiometry of the reaction affects the degree of functionalization of the product. When equimolar amounts of 2,2'-vinylidenedipyridine are added to the lithiated polysulfone, the degree of functionalization obtained was 45%. However, the addition of 10% and 20% molar excess of 2,2'-vinylidenedipyridine to the corresponding lithiated polysulfone produced dipyridyl functionalized polysulfones with degrees of functionalization of 80% and 95%, respectively; and (b) the membranes obtained from unmodified polysulfone as well as dipyridyl functionalized polysulfones were characterized by atomic force microscopy, scanning electron microscopy, pure water permeation measurements and contact angle measurements. Amine chain end functionalized polystyrene and poly(methyl methacrylate) were prepared by Atom Transfer Radical Polymerization (ATRP) methods as follows: (a) •-Aminophenyl functionalized polystyrene was prepared in quantitative yields by ATRP methods using a new primary amine functionalized initiator adduct, formed in situ by the reaction of 1-(4-aminophenyl)-1-phenylethylene and (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as catalyst in diethyl ether at 110 oC, for the polymerization of styrene.(b) New •-bis(aminophenyl) and •,ω-tetrakis(aminophenyl) functionalized polymers were prepared in quantitative yields by the ATRP method using the following synthetic strategy: (i) the initiation of styrene polymerization with a new primary diamine functionalized initiator adduct, generated in situ by the reaction of stoichiometric amounts of 1,1-bis(4-aminophenyl)ethylene with (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as catalyst, afforded •-bis(aminophenyl) functionalized polystyrene; and (ii) •-bis(aminophenyl) functionalized poly(methyl methacrylate) was prepared by the ATRP method using the primary diamine functionalized initiator adduct as initiator for methyl methacrylate polymerization; and (iii) well defined •,ω-tetrakis(aminophenyl) functionalized polystyrene was prepared by the post ATRP chain end modification reaction of •-bis(aminophenyl) functionalized polystyrene with 1,1-bis(4-aminophenyl)-ethylene at the completion of the polymerization reaction. (c) Similarly, •-bis(4-dimethylaminophenyl) functionalized polystyrene was prepared by using a new tertiary diamine functionalized initiator adduct, formed in situ by treatment of equimolar amounts of 1,1-bis[(4-dimethylamino)phenyl]-ethylene with (1-bromoethyl)benzene in the presence of copper (I) bromide/2,2'-bipyridyl as the catalyst in diphenyl ether at 110 oC for the initiation of styrene polymerization by the ATRP method. Furthermore, the ATRP of methyl methacrylate, initiated by the new tertiary diamine functionalized initiator adduct, produced •-bis(4-dimethylaminophenyl) functionalized poly(methyl methacrylate). In addition, •,ω-tetrakis(4-dimethylaminophenyl) functionalized polystyrene was synthesized via a post ATRP chain end modification reaction of •-bis(4-dimethylaminophenyl) functionalized polystyrene with equimolar amounts of 1,1-bis[(4-dimethylamino)phenyl]ethylene at the completion of the polymerization process. vi Quantitative yields of the different amine functionalized polymers with predictable number average molecular weights (Mn = 1.3 x 103 – 16.4 x103 g/mol), narrow molecular weight distributions (Mw/Mn = 1.03 – 1.29) and controlled chain end functionality were obtained. Polymerization kinetics data was employed to determine the controlled/living character of each ATRP reaction leading to the formation of the different amine chain end functionalized polymers. The polymerization processes were monitored by gas chromatographic analyses. Polymerization kinetics measurements for all reactions show that the polymerizations follow first order rate kinetics with respect to monomer consumption. The number average molecular weight of the amine functionalized polymers increases linearly with percentage monomer conversion and polymers with narrow molecular weight distribution were obtained. The ATRP of styrene, catalyzed by a novel dipyridyl functionalized polysulfone/CuBr supported catalyst system, afforded well defined polystyrene with predictable number average molecular weight and narrow molecular weight distribution in a controlled/living free radical polymerization process. The substituted 1,1-diphenylethylene initiator precursor derivatives and the functionalized polymers were characterized by nuclear magnetic resonance spectrometry, fourier transform infrared spectroscopy, thin layer chromatography, column chromatography, size exclusion chromatography, non-aqueous titrations, differential scanning calorimetry and thermogravimetrical analysis. / Chemistry / M. Sc. (Chemistry)
45

Atomistic and molecular simulations of novel acid-base blend membranes for direct methanol fuel cells

Mahajan, Chetan Vasant 04 February 2014 (has links)
One of the main challenges to transform highly useful Direct Methanol Fuel Cells (DMFC) into a commercially viable technology has been to develop a low cost polymer electrolyte membrane (PEM) with high proton conductivity, high stability and low methanol crossover under operating conditions desirably including high temperatures. Nafion, the widely used PEM, fails to meet all of these criteria simultaneously. Recently developed acid-base polymer blend membranes constitute a promising class of PEMs alternative to Nafion on above criteria. Even though some of these membranes produce better performance than Nafion, they still present numerous opportunities for maximizing high temperature proton conductivity and dimensional stability with concomitant minimization of methanol crossover. Our contribution embarks on the fundamental study of one such novel class of blend membranes viz., sulfonated poly (ether ether ketone) (SPEEK)(95 % by weight) blended with polysulfone tethered with base (5 % by weight) such as 2-aminobenzimidazole (ABIm), 5-amino-benzotriazole (BTraz) and 1H-perimidine (PImd), developed by Manthiram group at The University of Texas at Austin. In this work, we report extensive all-atom classical as well as ab-initio molecular dynamics (MD) simulations of such water-methanol solvated blend membranes (as well as pure SPEEK and Nafion) the first time. Our approach consists of three steps: (1) Predict dynamical properties such as diffusivities of water, methanol and proton in such membranes (2) Validate against experiments (3) Develop understanding on the interplay between basic chemistry, structure and properties, the knowledge that can potentially be used to develop better candidate membranes. In particular, we elucidate the impact of simple, fundamental physiochemical features of the polymeric membranes such as hydrophilicity, hydrophobicity, structure or the size of the base on the structural manifestations on the bigger scale such as nanophase segregation, hydrogen bonding or pore sizes, which ultimately affect the permeant transport through such systems. / text
46

Step-growth polymerization of perfluoro-vinyl ether, -cycloalkenes, and -acyclic alkenes with bisphenols containing variable polycyclic aromatic cores

Mukeba, Karl Mpumbwa 13 May 2022 (has links) (PDF)
This dissertation reports the synthesis and characterization of semi-fluorinated polymers derived from the polymerization of bisphenols with fluoroalkenes. A series of diverse bisphenols were chosen from popular commercial bisphenols and new polycyclic aromatic hydrocarbon (PAH) derived bisphenols requiring synthesis. Step-growth condensation polymerization of bisphenols with three different fluoroalkene types was performed while probing polymerization conditions and the structure/properties relationship of the resulting fluoropolymers. The fluoroalkene monomers were chosen from bis(trifluorovinyloxy)biphenyl (TFVE), perfluorocyclohexene (PFCH), and perfluoro acyclic monomers, namely, perfluoro(4-methyl-2-pentene) and 1-perfluoroheptene to undergo this chemistry. This work is divided into four parts based on the polymerization methodology. The first section focuses on the development of a new class of fluorinated arylene vinylene ether (FAVE) and their chain extended polymers prepared via base-catalyzed step-growth polymerization of PAH bisphenols with the TFVE monomer. These reactions afforded polymers containing controlled terminal and enchained fluoroalkenylenes for latent reactivity such as post polymerization functionalization, chain extension, and/or crosslinking. In general, these PAH cores resulted in polymers with improved thermal properties The second portion describes the investigation of step-growth addition/elimination polymerizations of PAH bisphenols and PFCH to prepare a new class of fluoropolymers containing alternating rigid PAH linkages and enchained PFCH vinylene ether moieties in the backbone. The third section covers the preparation and characterization of semi-fluorinated poly(aryl ether sulfone)s by nucleophilic addition/elimination reactions of PFCH with sulfone bisphenols. From commercially bisphenols combined with PAH bisphenols, we introduced the industrially valuable and property enhancing diaryl sulfone unit in a series of semi-fluorinated copolymers. This modular approach greatly expands access to partially fluorinated aryl ether sulfone polymers intended for high performance applications in optoelectronics, separation/purification membranes, and composites. Finally, in the fourth section, a new class of semifluorinated polymers was synthesized via nucleophilic addition/elimination reactions of acyclic perfluoroalkenes with bisphenols. In particular, environmental concerns for biopersistent and highly regulated perfluorooctanoic acid (PFOA) is the driver for using perfluoroheptene, which is derived cleanly by the decarboxylation of these pollutants in one step. This provided a new class of semi-fluorinated materials with promising properties including thermal stable, processability, and transparent film formation.

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