An Investigation into the Use of Density Functional Theory (DFT) Calculations for Predicting Vibrational Transitions for Perfluroinated Sulfonic Acid (PFSA) Ionomer Membranes

Schultz, Spencer Albert

05 February 2019

Perfluorinated sulfonic acid (PFSA) ionomer membranes demonstrate great potential for use in proton exchange membrane fuel cells (PEMFCs) due to their favorable electronic properties and excellent efficiency. However, the assignment of key vibrational transitions such as the symmetric sulfonate and ether stretches is not yet fully understood depriving researchers of a quick and simple technique for analyzing morphological changes. The symmetric sulfonate stretch could be used to track changes in the ionic clusters formed within the membrane while the ether stretch will provide insight into the largely semi-crystalline PTFE phase. Alterations in either regime will affect both ion transport and mechanical properties and produce a major shift in device performance. This study focused on predicting the vibrational transitions for Aquivion, 3M PFSA, and Nafion using density functional theory (DFT) with the bulk being performed using the same functional and basis set combination, B3LPY/6-31+G*. For all three ionomers, the predicted vibrational transitions were affected by changes in both the conformer and solvation method with water being used as the solvent. Despite the noted changes, both vibrational transitions were determined to be within the range of 970-1100 cm-1 with the symmetric sulfonate stretch present at around 970-1010 cm-1 and the ether stretch observed at around 1050-1100 cm-1 with solvation present. While the calculated peak positions mirror those found in the experimental spectra within the literature, the traditional normal mode assignments do not match those predicted by our calculations. However, recent studies have hypothesized that these vibrational transitions are coupled, which could explain why they have been so difficult to assign. / Master of Science / Perfluorinated sulfonic acid (PFSA) ionomer membranes show great promise for use in proton exchange membrane fuel cells (PEMFCs) due to their excellent efficiency. However, the current techniques used to determine changes in structural configurations require sophisticated equipment and trained personnel to operate. Simpler techniques exist wherein the vibrations of certain bonds can be measured upon exposure of the sample to measured amounts of infrared light. The problem with this technique is that researchers currently do not fully understand at what wavelengths certain portions of the polymer known as functional groups will vibrate. These vibrations are also known as vibrational transitions. This study was undertaken to predict through numerical solutions to the Schrödinger equation at what wavelengths two particular vibrational transitions would occur for three common ionomers, Aquivion, 3M PFSA, and Nafion. For all three structures, the positions of these transitions mirrored that observed within the literature although the functional groups assigned to these positions did not match with those identified by our calculations. However, recent studies have indicated that these vibrational transitions occur at the same positions, which could explain why they have been so difficult to assign.

DFT

PFSA

PTFE

Ionomers

Aquivion

3M PFSA

Nafion

PEMFC

B3LYP

HF

M06

WB97XD

6-31+G*

6-311+G*

cc-pVDZ

AUG-cc-pVDZ

FTIR

Transmission

ATR

Application of Nanofibres in Polymer Composite Membranes for Direct Methanol Fuel Cells

Mollá Romano, Sergio

09 December 2015

Tesis por compendio / [EN] Direct methanol fuel cells are feasible devices for efficient electrochemical power generation if some issues can be solved regarding both electrodes and membranes. The research carried out in this Ph.D. thesis has particularly focused on the concerns associated with the membranes. Nafion is the most standard fuel cell membrane material due to its high proton conductivity and exceptional chemical and mechanical stability. However, it suffers from a considerably high methanol permeability and a limited operating temperature (< 80 ºC). The first aspect was addressed with the use of PVA nanofibres and the second one replacing Nafion with SPEEK-based polymers. Composite membranes of Nafion with PVA nanofibres, surface functionalised with sulfonic acid groups, exhibited lower methanol permeabilities due to the intrinsic barrier property of PVA, although proton conductivity was also affected as a result of the non-conducting behaviour of the bulk PVA phase. Remarkably, the nanofibres provided strong mechanical reinforcement which enabled the preparation of low thickness membranes (< 20 micrometres) with reduced ohmic losses, thus counteracting their lower proton conductivities. SPEEK-based membranes were examined for DMFC operation within the intermediate temperature range of 80-140 ºC, in which sluggish electrochemical reactions at the electrodes are accelerated and proton conductivity activated. SPEEK was blended and crosslinked with PVA and PVB polymers for avoiding its dissolution in hot water conditions. SPEEK-PVA compositions showed practical proton conductivities and SPEEK-PVB blends presented very low methanol permeabilities. Nanocomposite membranes composed of SPEEK-30%PVB nanofibres embedded in a SPEEK-35%PVA matrix were prepared and characterised. A nanocomposite membrane crosslinked at 120 ºC revealed promising results for DMFCs operating at intermediate temperatures. Electrospinning is concluded to be a suitable technique for obtaining polymer nanofibre mats intended for advanced composite membranes with improved characteristics and fuel cell performances. / [ES] Las pilas de combustible de metanol directo son dispositivos factibles para la generación electroquímica eficiente de energía eléctrica si se pueden solucionar algunas cuestiones relacionadas tanto con los electrodos como las membranas. La investigación llevada a cabo en esta tesis doctoral se ha centrado particularmente en los problemas asociados con las membranas. Nafion es el material de membrana más común para pilas de combustible debido a su alta conductividad protónica y excepcional estabilidad química y mecánica. Sin embargo, padece una considerablemente alta permeabilidad al metanol y una limitada temperatura de operación (< 80 ºC). El primer aspecto se abordó con el uso de nanofibras de PVA y el segundo reemplazando Nafion con polímeros basados en SPEEK. Membranas compuestas de Nafion con nanofibras de PVA, funcionalizadas en su superficie con grupos ácidos sulfónicos, exhibieron menores permeabilidades al metanol debido a la propiedad barrera intrínseca del PVA, aunque la conductividad protónica también se vio afectada como resultado del comportamiento global no conductor de la fase de PVA. Remarcablemente, las nanofibras proporcionaron un refuerzo mecánico fuerte que permitió la preparación de membranas de bajo espesor (< 20 micrómetros) con unas pérdidas óhmicas reducidas, así contrarrestando sus menores conductividades protónicas. Se examinaron membranas basadas en SPEEK para la operación de pilas de combustible de metanol directo dentro del rango intermedio de temperaturas entre 80-140 ºC, en el que las lentas reacciones electroquímicas en los electrodos se aceleran y la conductividad protónica se activa. El SPEEK se combinó y entrecruzó con los polímeros de PVA y PVB para evitar su disolución en condiciones de agua caliente. Las composiciones de SPEEK-PVA mostraron conductividades protónicas funcionales y las mezclas de SPEEK-PVB presentaron permeabilidades al metanol muy bajas. Se prepararon y caracterizaron membranas nanocompuestas constituidas por nanofibras de SPEEK-30%PVB embebidas en una matriz de SPEEK-35%PVA. Una membrana nanocompuesta entrecruzada a 120 ºC reveló resultados prometedores para pilas de combustible de metanol directo operando a temperaturas intermedias. Se puede concluir que la electrohilatura es una técnica apropiada para la obtención de mallas de nanofibras poliméricas destinadas a membranas compuestas avanzadas con características y rendimientos en pilas de combustible mejorados. / [CA] Les piles de combustible de metanol directe són dispositius factibles per a la generació electroquímica eficient d'energia elèctrica si es poden solucionar algunes qüestions relacionades tant amb els elèctrodes com les membranes. La investigació duta a terme en esta tesi doctoral s'ha centrat particularment en els problemes associats amb les membranes. Nafion és el material de membrana més comú per a piles de combustible a causa de la seua alta conductivitat protònica i excepcional estabilitat química i mecànica. No obstant això, patix una considerablement alta permeabilitat al metanol i una limitada temperatura d'operació (< 80 ºC). El primer aspecte es va abordar amb l'ús de nanofibres de PVA i el segon reemplaçant Nafion amb polímers basats en SPEEK. Membranes compostes de Nafion amb nanofibres de PVA, funcionalizades en la seua superfície amb grups àcids sulfónics, van exhibir menors permeabilitats al metanol a causa de la propietat barrera intrínseca del PVA, encara que la conductivitat protònica també es va veure afectada com resultat del comportament global no conductor de la fase de PVA. Remarcablement, les nanofibres van proporcionar un reforç mecànic fort que va permetre la preparació de membranes de baixa grossària (< 20 micròmetres) amb unes pèrdues òhmiques reduïdes, així contrarestant les seues menors conductivitats protòniques. Es van examinar membranes basades en SPEEK per a l'operació de piles de combustible de metanol directe dins del rang intermedi de temperatures entre 80-140 ºC, en el que les lentes reaccions electroquímiques en els elèctrodes s'acceleren i la conductivitat protònica s'activa. El SPEEK es va combinar i va entrecreuar amb els polímers de PVA i PVB per a evitar la seua dissolució en condicions d'aigua calenta. Les composicions de SPEEK-PVA van mostrar conductivitats protòniques funcionals i les mescles de SPEEK-PVB van presentar permeabilitats al metanol molt baixes. Es van preparar i caracteritzar membranes nanocompostes constituïdes per nanofibres de SPEEK-30%PVB embegudes en una matriu de SPEEK-35%PVA. Una membrana nanocomposta entrecreuada a 120 ºC va revelar resultats prometedors per a piles de combustible de metanol directe operand a temperatures intermèdies. Es pot concloure que l'electrofilatura és una tècnica apropiada per a l'obtenció de malles de nanofibres polimériques destinades a membranes compostes avançades amb característiques i rendiments en piles de combustible millorats. / Mollá Romano, S. (2015). Application of Nanofibres in Polymer Composite Membranes for Direct Methanol Fuel Cells [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/58611 / Premios Extraordinarios de tesis doctorales / Compendio

DMFC

PEMFC

Fuel cell

Nafion

SPEEK

PVA

PVB

Composite membrane

Nanofibre

Methanol permeability

Proton conductivity.

MAQUINAS Y MOTORES TERMICOS

FISICA APLICADA

Ανάπτυξη μοντέλου πρωτονιακής αγωγιμότητας στηριζόμενο στο κβαντομηχανικό φαινόμενο σήραγγος και διερεύνηση του φαινομένου της ηλεκτροχημικής ενίσχυσης της κατάλυσης σε αντιδραστήρες κελιού καυσίμου υψηλών και χαμηλών θερμοκρασιών

Τσαμπάς, Μιχαήλ

09 March 2011

Στην παρούσα διατριβή αναπτύχθηκε ένα μοντέλο βασιζόμενο σε πρώτες αρχές με σκοπό την περιγραφή και την πρόβλεψη της πρωτονιακής αγωγιμότητας των πλήρως ενυδατωμένων μεμβρανών Nafion (το κυριότερο υλικό που χρησιμοποιείται ως ηλεκτρολύτης στις κυψέλες καυσίμου τύπου PEM) και των ιδιαίτερων χαρακτηριστικών αυτής, όπως τη γραμμική εξάρτηση από το πάχος της μεμβράνης, το δυναμικό του κελιού και τη μερική πίεση του υδρογόνου. Το μοντέλο εστιάζει στη μετανάστευση των πρωτονίων που είναι συνδεδεμένα στις σουλφονομάδες και χρησιμοποιεί την κατανομή φορτίου Poisson-Boltzmann γύρω από κάθε πρωτόνιο, σε συνδυασμό με την εξίσωση Gamow, που δίνει την πιθανότητα να συμβεί το φαινόμενο σήραγγος σε παραβολικό φράγμα δυναμικού. Προτείνεται ότι το μήκος που διανύεται κατά την πραγματοποίηση του φαινομένου σήραγγος ισούται με το μήκος κύματος του πρωτονίου και ότι κάθε πρωτόνιο περιβάλλεται από το νέφος Debye-Hückel. Το μοντέλο, που δεν εμπεριέχει προσαρμόσιμες παραμέτρους, λύνεται αναλυτικά και οι προβλέψεις του είναι σε ημιποσοτική συμφωνία με το πείραμα. Στις προβλέψεις αυτές συμπεριλαμβάνεται η τάξη μεγέθους της αγωγιμότητας, η γραμμική εξάρτηση της αγωγιμότητας με το πάχος της μεμβράνης, η εκθετική εξάρτηση από το δυναμικό και η ισχυρή εξάρτηση με τη μερική πίεση του υδρογόνου. Μελετήθηκε η κινητική, οι ταλαντώσεις και η ηλεκτροχημική ενίσχυση της οξείδωσης του CO σε καταλυτικό υμένιο Pt εναποτεθειμένο σε YSZ, χρησιμοποιώντας ως βάση την απόλυτη κλίμακα του ηλεκτροδίου του οξυγόνου. Βρέθηκε ότι η ηλεκτροχημική ενίσχυση είναι μικρή (ρ<3, Λ~300) όταν οι τιμές του δυναμικού του καταλύτη, UWR, είναι ανάμεσα σε 0.2 και 0.4 V και πολύ σημαντική (ρ~9, Λ~1500) όταν το UWR υπερβαίνει την τιμή 0.4 V. Η απότομη αλλαγή που παρατηρείται κατά την μετάβαση στην έντονη ηλεκτροχημική ενίσχυση συνοδεύεται και από απότομη αλλαγή στην κινητική της αντίδρασης και στο δυναμικό του καταλύτη. Μέσω της σύγκρισης των πειραματικών αποτελεσμάτων του κεφαλαίου και ανεξάρτητων μετρήσεων του έργου εξόδου μεταβάλλοντας το δυναμικό του καταλύτη για το ίδιο σύστημα, βρέθηκε ότι η μετάβαση οφείλεται στην έντονη μετανάστευση προωθητικών ειδών, Ο2-, από τη YSZ στην επιφάνεια του καταλύτη και την συνεπαγόμενη δημιουργία μιας πυκνής αποτελεσματικής διπλοστιβάδας στη διεπιφάνεια του καταλύτη με τα αέρια αντιδρώντα. Τέλος εξετάστηκε μια τροποποιημένη κυψέλη καυσίμου τύπου PEM η οποία λειτουργεί σε συνθήκες δηλητηρίασης από CO κατά την τριοδική λειτουργία. Στο τριοδικό κελί καυσίμου τύπου PEM εκτός της ανόδου και της καθόδου εισάγεται ένα τρίτο ηλεκτρόδιο το οποίο δημιουργεί ένα επιπλέον βοηθητικό κύκλωμα το οποίο λειτουργεί με ηλεκτρολυτικά ρεύματα και επιτρέπει τη λειτουργία της κυψέλης σε δυναμικά μεταξύ της ανόδου και της καθόδου ανέφικτα κατά τη συμβατική λειτουργία. Βρέθηκε ότι είναι δυνατό να ενισχυθεί η συνολική θερμοδυναμική ενεργειακή απόδοση όταν χρησιμοποιείται ως καύσιμο μίγμα αναμόρφωσης μεθανόλης που αντιστοιχεί σε συνθήκες έντονης δηλητηρίασης από CO. / In the present work a first principles model was developed to describe and predict the protonic conductivity of fully hydrated Nafion membranes and its peculiar non-linear dependence on membrane thickness, potential and PH2. The model focuses on the surface migration of protons between adjacent sulfonate groups and utilizes the Poisson-Boltzmann charge distribution around each proton combined with the basic Gamow equation of quantum mechanics for proton tunneling, for parabolic potential barrier. It was shown that the proton tunneling distance equals the proton wavelength and that each proton surrounded by its Debye-Hückel cloud behaves as a leaking nanobattery. The model, which contains no adjustable parameters, is solved analytically and its predictions are in semiquantitative agreement with experiment, including the magnitude of the conductivity, its linear increase with membrane thickness, its exponential increase with potential and its strong dependence on partial pressure of hydrogen. Moreover it was investigated the kinetics, rate oscillations and electrochemical promotion of CO oxidation on Pt deposited on YSZ using a standard oxygen reference electrode. It was found that electropromotion is small (ρ<3) when the catalyst potential UWR, is between 0.2 and 0.4V and very pronounced (ρ~9, Λ~1500) when UWR exceeds 0.4V. This sharp transition in the electropromotion behavior is accompanied by an abrupt change in reaction kinetics and in catalyst potential. It was shown via comparison with independent catalyst potential–catalyst work function measurements that the transition corresponds to the onset of extensive O2- spillover from YSZ onto the catalyst surface, and concomitant establishment of an effective double layer at the catalyst-gas interface, which is the cause of the highly active electropromoted state Furthermore it was studied a modified PEM fuel cell running in CO poisoning conditions by the triode operation. In addition to the anode and cathode, the triode PEM fuel cell introduces a third electrode together with an auxiliary circuit which is run in the electrolytic mode and permits fuel cell operation under previously inaccessible anode-cathode potential differences. It was found that it is possible to enhance the overall thermodynamic efficiency when it is used a methanol reformate mixture as a fuel, which corresponds to intense CO poisoning conditions.

Τριοδική λειτουργία

621.312 429

Proton quantum mechanical tunneling

Polymer electrolyte membrane fuel cells

Steady state multiplicities

Ac impedance measurements

Oxygen crossover

Electrochemical promotion of catalysis

Oxidation of CO on Pt/YSZ and Pt/nafion

Triode operation

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

Χουρδάκης, Νικόλαος

27 December 2010

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.

Κυψελίδες καυσίμου

Εφελκυσμός

Διαχωρισμός αερίων

Αγώγιμα πολυμερή

Διαπερατότητα

Νάφιον

Πολυσουλφόνη

621.312 429

Polymer membranes

Fuel cells

Stretching

Molecular orientation

Gas separation

Conductive polymers

Mixed matrix membranes

Permeability

Nafion

Polysulfone

An Investigation of Low Temperature Direct Propane Fuel Cells

Parackal, Bhavana

January 2017

This research is directed toward the investigation of a low temperature direct propane fuel cell (DPFC). Modeling included a parametric study of a direct propane fuel cell using computational fluid dynamics (CFD), specifically FreeFem++ software. Polarization curves predicted by the CFD model were used to understand fuel cell performance. The predictions obtained from the computational fluid dynamics mathematical model for the fuel cell were compared with experimental results. The computational work identified some critical parameters (exchange current density, pressure, temperature) for improving the overall performance of the fuel cell. The model predictions clearly highlighted the role of catalysts in significantly enhancing the overall performance of a DPFC. Experiments were performed using commercial Nafion-Pt based membrane electrode assemblies (MEAs) to obtain a basis for comparison. It is the first report in the literature that a Pt-Ru (Platinum-Ruthenium) MEA was used in the investigation of a DPFC. Also, it was the first study that fed liquid water continuously to a DPFC by using interdigitated flow field (IDFF) at the anode to humidify the dry propane feed gas. During the experiments oscillations were observed at very low current densities i.e. in nA/cm2, which is a rare case and not reported in the literature to date. This observation has raised serious concerns about the existence of absolute open-circuit cell potential difference for a DPFC. The cycling behaviour observed with DPFC indicated the presence of a continuous degradation-regeneration process of the catalyst surface near open-circuit potential. The experimental work further evaluated the performance of fuel cell by measurement of polarization curves.

Direct Propane Fuel Cell

CFD Modeling Parametric Study

FreeFem++

Finite element numerical method

Nafion MEA

Bubble Humidifier

Liquid water interdigitated flow field

Oscillations

Pin-type flow field

Anode humidification

The Behavior Of Cerium Oxide Nanoparticles In Polymer Electrolyte Membranes In Ex-situ And In-situ Fuel Cell Durability Tests

Pearman, Benjamin

01 January 2012

Fuel cells are known for their high efficiency and have the potential to become a major technology for producing clean energy, especially when the fuel, e.g. hydrogen, is produced from renewable energy sources such as wind or solar. Currently, the two main obstacles to wide-spread commercialization are their high cost and the short operational lifetime of certain components. Polymer electrolyte membrane (PEM) fuel cells have been a focus of attention in recent years, due to their use of hydrogen as a fuel, their comparatively low operating temperature and flexibility for use in both stationary and portable (automotive) applications. Perfluorosulfonic acid membranes are the leading ionomers for use in PEM hydrogen fuel cells. They combine essential qualities, such as high mechanical and thermal stability, with high proton conductivity. However, they are expensive and currently show insufficient chemical stability towards radicals formed during fuel cell operation, resulting in degradation that leads to premature failure. The incorporation of durability improving additives into perfluorosulfonic acid membranes is discussed in this work. iv Cerium oxide (ceria) is a well-known radical scavenger that has been used in the biological and medical field. It is able to quench radicals by facilely switching between its Ce(III) and Ce(IV) oxidation states. In this work, cerium oxide nanoparticles were added to perfluorosulfonic acid membranes and subjected to ex-situ and in-situ accelerated durability tests. The two ceria formulations, an in-house synthesized and commercially available material, were found to consist of crystalline particles of 2 – 5 nm and 20 – 150 nm size, respectively, that did not change size or shape when incorporated into the membranes. At higher temperature and relative humidity in gas flowing conditions, ceria in membranes is found to be reduced to its ionic form by virtue of the acidic environment. In ex-situ Fenton testing, the inclusion of ceria into membranes reduced the emission of fluoride, a strong indicator of degradation, by an order of magnitude with both liquid and gaseous hydrogen peroxide. In open-circuit voltage (OCV) hold fuel cell testing, ceria improved durability, as measured by several parameters such as OCV decay rate, fluoride emission and cell performance, over several hundred hours and influenced the formation of the platinum band typically found after durability testing.

Fuel cells

hydrogen

polymer electrolyte membrane

pem

proton exchange membrane

nafion

perfluorosulfonic acid

degradation

degradation mechanisms

accelerated durability

fenton test

ocv hold

fluoride emission

platinum band

degradation mitigation

radical scavengers

cerium oxide

ceria

nanoparticles

Chemistry

Разработка и исследование электрохимических сенсоров на основе углеродных нанотрубок для инверсионной вольтамперометрии : магистерская диссертация / Development and research of electrochemical sensors based on carbon nanotubes for stripping voltammetry

Косых, А. С., Kosykh, A. S.

January 2016

Цель работы состояла в определении оптимальных значений диаметра и массы углеродных нанотрубок (УНТ) в нафионсодержащей модифицирующей пленке для получения наилучших электрохимических и аналитических характеристик толстопленочных углеродсодержащих электродов (ТУЭ). В ходе работы синтезированы многостенные УНТ со средним диаметром dср ≈ 23 нм методом каталитического пиролиза этанола и проведена кислотная очистка полученного материала от металлических частиц катализатора и других модификаций углерода. Аналогичным способом обработаны коммерческие УНТ с dср ≈ 147 и 16 нм от Sigma-Aldrich. Успешно изготовлены 36 типов ТУЭ без УНТ и на основе УНТ в условиях варьирования массового содержания УНТ в диапазоне MУНТ = 0,3-10,0 мкг на поверхности ТУЭ. Аттестация поверхностей электродов проведена методами оптической и электронной микроскопии. Изучены электрохимические характеристики изготовленных ТУЭ методами циклической вольтамперометриии и импедансной спектроскопии. Выполнено определение ионов железа (III) в модельном растворе методом адсорбционной инверсионной вольтамперометрии. Установлены оптимальные значения среднего диаметра УНТ dср ≥ 23 нм и массы УНТ MУНТ = 5,0-10,0 мкг на поверхности ТУЭ для получения наилучших электрохимические и аналитические характеристики. Разработанные ТУЭ на основе УНТ могут применяться для определения ионов тяжелых металлов в реальных водах с концентрацией меньшей предельно-допустимых значений, установленных нормативными документами. / The aim is to determine the optimal values of the diameter and weight of carbon nanotubes (CNT) in modifier film containing Nafion for the best electrochemical and analytical characteristics of the thick film of carbon-containing electrodes (TFCE). Multi-walled CNT with an average diameter dav ≈ 23 nm were synthesized by the catalytic pyrolysis of ethanol and purified from the metal catalyst particles and other modifications of carbon, using mixture of concentrated sulfuric and nitric acids. Commercial CNT with dav ≈ 147 and 16 nm from Sigma-Aldrich were treated by a similar procedure. The batch of 36 types of TFCE without CNT and based on CNT varied by weight of CNT (MCNT) on TFCE surface in the range of 0,3-10,0 μg was made. The electrode surfaces were studied by optical and electron microscopy. The electrochemical characteristics of obtained TFCE by cyclic voltammetry and electrochemical impedance spectroscopy were investigated. The detection of Fe (III) ions in a model solution was carried out by adsorptive stripping voltammetry. The optimal values of the average diameter of CNT dav ≥ 23 nm and a weight of CNT on TFCE surfaces MCNT = 5,0-10,0 μg were determined. These parameters allow us to reach the best electrochemical and analytical characteristics of modified TFCE. Developed TFCE based on CNT may be used for the detection of heavy metal ions in real water with a concentration of less maximum permissible values, established by regulations.

НАФИОН

КАЛОМЕЛЬ

ИОНЫ ЖЕЛЕЗА

MASTER'S THESIS

CARBON NANOTUBES

SCREEN PRINTED ELECTRODES

NAFION

CALOMEL

IRON IONS

ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY

CYCLIC VOLTAMMETRY

ADSORPTIVE STRIPPING VOLTAMMETRY

Understanding Coulombic Efficiency Limitations in an Acid-Base Energy Storage System: Mass Transport Through Nafion

Pickering, Jason C., Pickering

31 August 2018

No description available.

Alternative Energy

Chemical Engineering

Energy

Engineering

Nafion

battery

flow battery

acid

base

acid-base

energy storage

mass transport

macro-homogeneous

redox flow battery

clean energy

coulombic efficiency

diffusion

migration

sodium

sulfate

alternative energy

storage

Transformación de biomasa en productos de química fina: Síntesis de compuestos de alto interés como surfactantes y fármacos utilizando catalizadores heterogéneos

Martínez Silvestre, Sergio

08 April 2016

[EN] Under the principles of Green Chemistry has been carried out the synthesis of different esters of glycerol carbonate, which are high value compounds with surfactant properties derived from glycerol by the esterification reaction between glycerol carbonate and various organic acids in the absence of solvent and using heterogeneous catalysts include zeolites and acidic resins. The best results, in terms of activity and selectivity, were obtained using the hybrid Nafion-silica catalyst called Nafion SAC-13. It has been shown that the water generated as a byproduct during the reaction is responsible for the existence of competing reactions of hydrolysis of the carbonate function resulting products as glycerol and glycerol esters. Also are optimized different reaction conditions such as temperature, the molar ratio between the substrates, the amount of catalyst and solvent usage. It has also been shown that the reaction rate decreases as the chain length of the carboxylic acid is increased. After adjustment of the experimental data to a kinetic model, we have determined the kinetic parameters of the reaction catalyzed by Nafion SAC-13 with different carboxylic acids and found to reduce the reactivity of carboxylic acids with increasing chain length alcánica is due both inductive effects such as steric effects. Furthermore, compounds with bencimidazoilquinoxaline and quinoxaline structure have been prepared, which have a wide variety of biological activities. These compounds have been synthesized from various diols and triols from biomass by oxidative cyclization process in two stages performed in a single reactor in an efficient and selective manner. After optimization of the reaction conditions such as temperature, amount of catalyst and concentration of O2, the synthesis of quinoxaline have been carried out with excellent results by using catalysts based on gold nanoparticles supported on oxide nanoparticle cerium (Au/CeO2) and hydrotalcite (Au/HT) using air as oxidant and in the absence of base. Regarding benzimidazoilquinoxalines, we have developed two synthetic routes multistage, in a single reactor, effective and selective catalyzed Au/CeO2. The first method involves the synthesis of compounds benzimidazoilquinoxalines with the same substituents on the two heterocycles by oxidation-cyclization of glycerol derivatives with o-phenylenediamine, while the second method allows the synthesis of benzimidazoilquinoxalines compounds with different substituents on each aromatic ring starting from glyceraldehyde. Finally, it has carried out the synthesis of long chain alkyl glucosides with tensio-active properties via a cascade process that involves first methanolysis cellulose for methyl glucosides and subsequently Fischer glycosidation reaction with n-octanol/n-decanol. The first step is carried out using methanol as solvent and acid catalysts such as inorganic acids, heteropolyacids, ion exchange resins or modified carbon materials. Subsequently the long chain alkyl glycosides are obtained by transacetalization reaction between methyl glucosides obtained in the previous step and a fatty alcohol using the same acid catalyst. The best results for the overall process are obtained using sulfonated carbon as catalyst, it being possible to achieve complete conversion of cellulose in methanol working at 200 ºC in the methanolysis step and at 120 ºC in the transacetalization step. / [ES] Bajo los principios de la Química Verde, se ha llevado a cabo la síntesis de diferentes ésteres del carbonato de glicerol, que son compuestos de alto valor añadido con propiedades surfactantes derivados del glicerol, mediante reacción de esterificación entre el carbonato de glicerol y diferentes ácidos orgánicos, en ausencia de disolvente, y empleando catalizadores heterogéneos, que incluyen resinas ácidas y zeolitas. Los mejores resultados, en términos de actividad y selectividad, se obtuvieron utilizando el catalizador híbrido Nafion-sílice denominado Nafion SAC-13. Se ha demostrado que el agua generada como subproducto durante la reacción es la responsable de la existencia de reacciones competitivas de hidrólisis de la función carbonato dando lugar a subproductos como glicerol y ésteres glicéricos. Asimismo se han optimizado diferentes condiciones de reacción tales como la temperatura, la relación molar entre los sustratos, la cantidad de catalizador y el uso de disolvente. También se ha demostrado que la velocidad de reacción disminuye a medida que se aumenta la longitud de cadena del ácido carboxílico. Tras el ajuste de los datos experimentales a un modelo cinético, se han determinado los parámetros cinéticos de la reacción catalizada por Nafion SAC-13 con diferentes ácidos carboxílicos comprobándose que la reducción de la reactividad de los ácidos carboxílicos a medida que aumenta su longitud de cadena alcánica es debida tanto por efectos inductivos como por efectos estéricos. Por otra parte, se han preparado compuestos con estructura de quinoxalina y bencimidazoilquinoxalina, los cuáles poseen una amplia variedad de actividades biológicas. Estos compuestos han sido sintetizados a partir de diferentes dioles y trioles procedentes de la biomasa mediante un proceso de ciclación oxidativa en dos etapas llevado a cabo en un único reactor de un modo eficiente y selectivo. Tras la optimización de las condiciones de reacción tales como temperatura, cantidad de catalizador y concentración de O2, la síntesis de quinoxalinas ha sido llevada a cabo con excelentes resultados mediante el uso de catalizadores basados en nanopartículas de oro soportadas sobre óxido de cerio nanoparticulado (Au/CeO2) e hidrotalcita (Au/HT), utilizando aire como agente oxidante y en ausencia de base. En cuanto a las bencimidazoilquinoxalinas, se han desarrollado dos rutas sintéticas multietapa, en un único reactor, eficaces y selectivas catalizadas por Au/CeO2. El primer método implica la síntesis de compuestos bencimidazoilquinoxalinas con los mismos sustituyentes en las dos heterociclos a través de oxidación-ciclación de derivados de glicerol con o-fenilendiamina, mientras que el segundo método permite la síntesis de compuestos bencimidazoilquinoxalinas con diferentes sustituyentes en cada anillo aromático partiendo de gliceraldehído. Por último, se ha llevado a cabo la síntesis de alquil glucósidos de cadena larga con propiedades tensioactivas a través de un proceso en cascada que implica en primer lugar la metanólisis de celulosa para obtener metilglucósidos y posteriormente la reacción de glicosidación Fischer con n-octanol/n-decanol. La primera etapa se lleva a cabo utilizando metanol como disolvente y catalizadores ácidos tales como ácidos inorgánicos, heteropoliácidos, resinas de intercambio iónico o materiales de carbono modificados. Posteriormente los alquil glucósidos de cadena larga se obtienen por reacción de transacetalización entre los metilglucósidos obtenidos en la etapa previa y un alcohol graso utilizando el mismo catalizador ácido. Los mejores resultados para el proceso global se han obtenido empleando como catalizador carbón sulfonado, siendo posible alcanzar la conversión completa de la celulosa en metanol a 200 ºC en la etapa de metanólisis y 120 ºC en la etapa de transacetalización. / [CA] A partir dels principis de la Química Verda, s'ha dut a terme la síntesi de diferents èsters del carbonat de glicerol, que són compostos d'alt valor afegit amb propietats surfactants derivats del glicerol, mitjançant reacció d'esterificació entre el carbonat de glicerol i diferents àcids orgànics , en absència de dissolvent, i emprant catalitzadors heterogenis, que inclouen resines àcides i zeolites. Els millors resultats, en termes d'activitat i selectivitat, es van obtenir utilitzant el catalitzador híbrid Nafion-sílice denominat Nafion SAC-13. S'ha demostrat que l'aigua generada com a subproducte durant la reacció és la responsable de l'existència de reaccions competitives d'hidròlisi de la funció carbonat donant lloc a subproductes com glicerol i èsters glicéricos. Així mateix s'han optimitzat diferents condicions de reacció tals com la temperatura, la relació molar entre els substrats, la quantitat de catalitzador i l'ús de dissolvent. També s'ha demostrat que la velocitat de reacció disminueix a mesura que s'augmenta la longitud de cadena de l'àcid carboxílic. Després de l'ajust de les dades experimentals a un model cinètic, s'han determinat els paràmetres cinètics de la reacció catalitzada per Nafion SAC-13 amb diferents àcids carboxílics comprovant-se que la reducció de la reactivitat dels àcids carboxílics a mesura que augmenta la seva longitud de cadena alcánica és deguda tant per efectes inductius com per efectes estèrics. D'altra banda, s'han preparat compostos amb estructura de quinoxalina i bencimidazoilquinoxalina, els quals posseeixen una àmplia varietat d'activitats biològiques. Aquests compostos han estat sintetitzats a partir de diferents diols i trioles procedents de la biomassa mitjançant un procés de ciclació oxidativa en dues etapes dut a terme en un únic reactor de una manera eficient i selectiu. Després de la optimització de les condicions de reacció tals com temperatura, quantitat de catalitzador i concentració d'O2, la síntesi de quinoxalines ha estat portada a terme amb excel·lents resultats mitjançant l'ús de catalitzadors basats en nanopartícules d'or suportades sobre òxid de ceri nanoparticulado (Au/CeO2) i hidrotalcita (Au/HT), utilitzant aire com a agent oxidant i en absència de base. Pel que fa a les bencimidazoilquinoxalines, s'han desenvolupat dues rutes sintètiques multietapa, en un únic reactor, eficaços i selectives catalitzades per Au/CeO2. El primer mètode implica la síntesi de compostos bencimidazoilquinoxalines amb els mateixos substituents en les dues heterocicles a través d'oxidació-ciclació de derivats de glicerol amb o-fenilendiamina, mentre que el segon mètode permet la síntesi de compostos bencimidazoilquinoxalines amb diferents substituents en cada anell aromàtic partint de gliceraldehid. Finalment, s'ha dut a terme la síntesi d'alquil glucòsids de cadena llarga amb propietats tensioactives a través d'un procés en cascada que implica en primer lloc la metanólisis de cel·lulosa per obtenir metilglucósidos i posteriorment la reacció de glicosidación Fischer amb n-octanol/n-decanol. La primera etapa es porta a terme utilitzant metanol com a dissolvent i catalitzadors àcids com ara àcids inorgànics, heteropoliácids, resines d'intercanvi iònic o materials de carboni modificats. Posteriorment els alquil glucòsids de cadena llarga s'obtenen per reacció de transacetalizació entre els metilglucósides obtinguts en l'etapa prèvia i un alcohol gras utilitzant el mateix catalitzador àcid. Els millors resultats per al procés global s'han obtingut emprant com a catalitzador carbó sulfonat, sent possible aconseguir la conversió completa de la cel·lulosa en metanol a 200 ºC en l'etapa de metanólisis i 120 ºC en l'etapa de transacetalizació. / Martínez Silvestre, S. (2016). Transformación de biomasa en productos de química fina: Síntesis de compuestos de alto interés como surfactantes y fármacos utilizando catalizadores heterogéneos [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/62353

Química Sostenible

Química Verde

Biomasa

Catálisis Heterogénea

Surfactantes

Ácidos Carboxílicos

Nafion SAC-13

Esterificación

Oxidación

Quinoxalinas

Bencimidazoilquinoxalinas

Nanopartículas de oro

Óxido de cerio

Proceso multietapa

Glicerol

Gliceraldehído

Diol

Celulosa

Metanólisis

Alquil glucósido

Metil glucósido

Carbón sulfonado

Proceso en cascada

QUIMICA ORGANICA

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

Mahajan, Chetan Vasant

04 February 2014

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

Methanol fuel-cells

Molecular-dynamics simulation

Polymer electrolyte membranes

Force-field

Polymer membranes

Hydrated nafion

Fuel-cell applications

Proton-exchange membranes

Nanophase-segregation

Atomistic simulations

Ab initio molecular dynamics simulations

Proton hopping

Zundel ions

Immidazolium

Resonance stabilization

Sulfonated poly(ether ether ketone)

Polysulfone

Benzotriazole

Benzimidazole

Perimidine