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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.
1

Fabrication and characterization of electronic devices based on poly(3-methlythiophene)

Gomes, Henrique Leonel January 1993 (has links)
No description available.
2

Side Chain Modification of Conjugated Polymers for Bioelectronics and Biological Applications

du, weiyuan 09 1900 (has links)
Organic bioelectronics is the convergence of organic electronics and biology. Motivated by the unique combination of both electronic and ionic conductivity, organic semiconducting materials have been applied in OECTs for sensing applications to translate bio-logical signals into a quantitative electrical reading. Due to their carbon-based structure and flexibility, CPs can achieve improved biocompatibility compared to inorganic devices as they are intrinsically “softer”, avoiding mechanical mismatch and the need for surface compatibilizing layers. These promising materials have broad potential to be used in applications such as biosensors, drug delivery, and neural interfaces. In the second chapter, a series of lysine-functionalized DPP3T semiconducting polymers, outline their synthesis, and demonstrate that these particular polymers allow neuron cells to adhere and grow, in comparison to unfunctionalized polymers, where cells quickly die. Through covalent attachment of small lysine units, the conjugated polymer backbone and cells can directly electrically communicate, favorable for neural signals recording/stimulating. In the third chapter, NDI-based semiconducting polymers are selected for lysinefunctionalization, giving protein-like surfaces for neurons to attach, grow and form a network without the need of an intermediate PDL coating. Most importantly, this careful choice of NDI backbone allows lysinated-NDI polymers to operate in OECTs with an outstanding normalized transconductance value of 0.25 S/cm. In the fourth chapter, a new technique is presented to biofunctionalize thin film surface of polymers. Two methods including CuAAC and thiol-ene click are demonstrated to be applicable to biofunctionalize surface. In particular, both of them can achieve biocompatible surface by attaching biomolecules at high density while maintaining electrically conductive film. In the final chapter, three series of NDI-T2 are presented synthesized via Stille coupling reaction using different Pd catalysts. Following electrochemical and device characterization, the study of the influence of spacers between backbone and EG chain for performance in OFET and OECT operations is carried out. It is clearly evidenced that electron mobility increases by a factor of 10 with gradual increased spacers for all polymers in OFETs devices. For OECTs, within three series, pNDI-Cx-T2 stands out, especially pNDI-C4-T2 giving the highest reported transconductance at 0.479 S/cm and a low threshold voltage of 0.18 V.
3

Crystallization, biomimetics and semiconducting polymers in confined systems

Montenegro, Rivelino V. D. January 2003 (has links)
populärwissenschaftlicher Abstract:<br /> Kristallisation, Biomimetik und halbleitende Polymere in räumlich begrenzten Systemen:<br /> Öl und Wasser mischen sich nicht, man kann aber aus beiden Flüssigkeiten Emulsionen herstellen, bei denen Tröpfchen der einen Flüssigkeit in der anderen Flüssigkeit vorliegen. Das heißt, es können entweder Öltröpfchen in Wasser oder Wassertröpfchen in Öl erzeugt werden. Aus täglichen Erfahrungen, z.B. beim Kochen weiß man jedoch, dass sich eine Emulsion durch Schütteln oder Rühren herstellen lässt, diese jedoch nicht besonders stabil ist. Mit Hilfe von hohen Scherenergien kann man nun sehr kleine, in ihrer Größe sehr einheitliche und außerdem sehr stabile Tröpfchen von 1/10000 mm erhalten. Eine solche Emulsion wird Miniemulsion genannt. <br /> In der Dissertation wurden nun z.B. Miniemulsionen untersucht, die aus kleinen Wassertröpfchen in einem Öl bestehen. Es konnte gezeigt werden, dass das Wasser in diesen Tröpfchen, also in den räumlich begrenzten Systemen, nicht bei 0 &#176;C, sondern bei -22 &#176;C kristallisierte. Wie lässt sich das erklären? Wenn man einen Eimer Wasser hat, dann bildet sich normalerweise bei 0 &#176;C Eis, da nämlich in dem Wasser einige (manchmal ganz wenige) Keime (z.B. Schutzteilchen, ein Fussel etc.) vorhanden sind, an denen sich die ersten Kristalle bilden. Wenn sich dann einmal ein Kristall gebildet hat, kann das Wasser im gesamten Eimer schnell zu Eis werden. Ultrareines Wasser würde bei -22 &#176;C kristallisieren. Wenn man jetzt die Menge Wasser aus dem Eimer in kleine Tröpfchen bringt, dann hat man eine sehr, sehr große Zahl, nämlich 1017 Tröpfchen, in einem Liter Emulsion vorliegen. Die wenigen Schmutzpartikel verteilen auf sehr wenige Tröpfchen, die anderen Tröpfchen sind ultrarein. Daher kristallisieren sie erst bei -22 &#176;C.<br /> <br /> Im Rahmen der Arbeit konnte auch gezeigt werden, dass die Miniemulsionen genutzt werden können, um kleine Gelatine-Partikel, also Nanogummibärchen, herzustellen. Diese Nanogummibärchen quellen bei Erhöhung der Temperatur auf ca. 38 &#176;C an. Das kann ausgenutzt werden, um zum Beispiel Medikamente zunächst in den Partikeln im menschlichen Körper zu transportieren, die Medikamente werden dann an einer gewünschten Stelle freigelassen. In der Arbeit wurde auch gezeigt, dass die Gelatine-Partikel genutzt werden können, um die Natur nachzuahnen (Biomimetik). Innerhalb der Partikel kann nämlich gezielt Knochenmaterial aufgebaut werden kann. Die Gelatine-Knochen-Partikel können dazu genutzt werden, um schwer heilende oder komplizierte Knochenbrüche zu beheben. Gelatine wird nämlich nach einigen Tagen abgebaut, das Knochenmaterial kann in den Knochen eingebaut werden.<br /> <br /> LEDs werden heute bereits vielfältig verwendet. LEDs bestehen aus Halbleitern, wie z.B. Silizium. Neuerdings werden dazu auch halbleitende Polymere eingesetzt. Das große Problem bei diesen Materialien ist, dass sie aus Lösungsmitteln aufgebracht werden. Im Rahmen der Doktorarbeit wurde gezeigt, dass der Prozess der Miniemulsionen genutzt werden kann, um umweltfreundlich diese LEDs herzustellen. Man stellt dazu nun wässrige Dispersionen mit den Polymerpartikeln her. Damit hat man nicht nur das Lösungsmittel vermieden, das hat nun noch einen weiteren Vorteil: man kann nämlich diese Dispersion auf sehr einfache Art verdrucken, im einfachsten Fall verwendet man einfach einen handelsüblichen Tintenstrahldrucker. / The colloidal systems are present everywhere in many varieties such as emulsions (liquid droplets dispersed in liquid), aerosols (liquid dispersed in gas), foam (gas in liquid), etc. Among several new methods for the preparation of colloids, the so-called miniemulsion technique has been shown to be one of the most promising. Miniemulsions are defined as stable emulsions consisting of droplets with a size of 50-500 nm by shearing a system containing oil, water, a surfactant, and a highly water insoluble compound, the so-called hydrophobe<br /> <br /> 1. In the first part of this work, dynamic crystallization and melting experiments are described which were performed in small, stable and narrowly distributed nanodroplets (confined systems) of miniemulsions. Both regular and inverse systems were examined, characterizing, first, the crystallization of hexadecane, secondly, the crystallization of ice. It was shown for both cases that the temperature of crystallization in such droplets is significantly decreased (or the required undercooling is increased) as compared to the bulk material. This was attributed to a very effective suppression of heterogeneous nucleation. It was also found that the required undercooling depends on the nanodroplet size: with decreasing droplet size the undercooling increases.<br /> <br /> 2. It is shown that the temperature of crystallization of other n-alkanes in nanodroplets is also significantly decreased as compared to the bulk material due to a very effective suppression of heterogeneous nucleation. A very different behavior was detected between odd and even alkanes. In even alkanes, the confinement in small droplets changes the crystal structure from a triclinic (as seen in bulk) to an orthorhombic structure, which is attributed to finite size effects inside the droplets. An intermediate metastable rotator phase is of less relevance for the miniemulsion droplets than in the bulk. For odd alkanes, only a strong temperature shift compared to the bulk system is observed, but no structure change. A triclinic structure is formed both in bulk and in miniemulsion droplets.<br /> <br /> 3. In the next part of the thesis it is shown how miniemulsions could be successfully applied in the development of materials with potential application in pharmaceutical and medical fields. The production of cross-linked gelatin nanoparticles is feasible. Starting from an inverse miniemulsion, the softness of the particles can be controlled by varying the initial concentration, amount of cross-link agent, time of cross-linking, among other parameters. Such particles show a thermo-reversible effect, e.g. the particles swell in water above 37 &#176;C and shrink below this temperature. Above 37 &#176;C the chains loose the physical cross-linking, however the particles do not loose their integrity, because of the chemical cross-linking. Those particles have potential use as drug carriers, since gelatin is a natural polymer derived from collagen.<br /> <br /> 4. The cross-linked gelatin nanoparticles have been used for the biomineralization of hydroxyapatite (HAP), a biomineral, which is the major constituent of our bones. The biomineralization of HAP crystals within the gelatin nanoparticles results in a hybrid material, which has potential use as a bone repair material.<br /> <br /> 5. In the last part of this work we have shown that layers of conjugated semiconducting polymers can be deposited from aqueous dispersion prepared by the miniemulsion process. Dispersions of particles of different conjugated semiconducting polymers such as a ladder-type poly(para-phenylene) and several soluble derivatives of polyfluorene could be prepared with well-controlled particle sizes ranging between 70 - 250 nm. Layers of polymer blends were prepared with controlled lateral dimensions of phase separation on sub-micrometer scales, utilizing either a mixture of single component nanoparticles or nanoparticles containing two polymers. From the results of energy transfer it is demonstrated that blending two polymers in the same particle leads to a higher efficiency due to the better contact between the polymers. Such an effect is of great interest for the fabrication of opto-electronic devices such as light emitting diodes with nanometer size emitting points and solar cells comprising of blends of electron donating and electron accepting polymers.
4

Μελέτη των ηλεκτρονιακών ιδιοτήτων της επιφάνειας ημιαγώγιμων πολυμερών για εφαρμογές σε φωτοβολταϊκά κελιά

Τάντης, Ιωσήφ 14 October 2013 (has links)
Τα οργανικά φωτοβολταϊκά (OPV) είναι συσκευές που παρουσιάζουν μια ελκυστική λύση για εφαρμογές ηλιακής ενέργειας λόγω του χαμηλού κόστους παραγωγής τους, της μηχανικής ευκαμψίας και τη δυνατότητα παραγωγής συσκευών μεγάλης έκτασης και μικρού βάρους. Οι πιο αποδοτικοί δέκτες ηλεκτρονίων μέχρι σήμερα στα OPVs βασίζονται σε τροποποιημένα φουλερένια. Ωστόσο, χρειάζονται περαιτέρω βελτιώσεις προκειμένου να επιτευχθεί πιο αποτελεσματική μεταφορά των διαχωρισμένων φορέων στα αντίστοιχα ηλεκτρόδια. Προσπάθειες προς αυτή την κατεύθυνση έχουν γίνει, είτε επηρεάζοντας την αναμειξιμότητα μεταξύ του δότη και δέκτη είτε με την ανάπτυξη πιο αποτελεσματικών δοτών ή δεκτών ηλεκτρονίων. Νέα υβριδικά υλικά με βάση το φουλλερένιο έχουν χρησιμοποιηθεί για να επηρεάσουν τις ημιαγώγιμες ιδιότητες των πολυμερών. Δεδομένου ότι οι πολυκινολίνες αποτελούν μια από τις πλέον υποσχόμενες κατηγορίες πολυμερών μεταφοράς φορτίου (οπής ή ηλεκτρονίου) για εφαρμογή σε διάφορες οπτοηλεκτρονικές εφαρμογές, ο συνδυασμός τους με C60 αναμένεται να παράσχει μια λύση για την ενίσχυση των οπτικών, μορφολογικών και ηλεκτρονικών τους ιδιοτήτων. Πρόσφατη έρευνα έχει δείξει ότι η τροποποίηση των πολυκινολινών ώστε να έχουν χαμηλότρες τιμές LUMO θα ενισχύσει τις ιδιότητες τους ως δέκτες ηλεκτρονίων. Στην εργασία αυτή μελετήθηκαν οι ηλεκτρονικές ιδιότητες διαφόρων υλικών που αντιστοιχούν στα διαδοχικά στάδια σύνθεση ενός νέου υβριδικού συμπολυμερικού δέκτη μέσω των φασματοσκοπιών φωτοηλεκτρονίων από ακτίνες-Χ και ακτινοβολία UV (XPS/UPS). Το τελικό υβριδικό πολυμερές που μελετήθηκε είναι η πολυ-πενταφθόροφενυλοκινολίνη η οποία υβριδίστηκε με C60 (P5FQ-C60). Το μονομερές πενταφθόροφενυλοκινολίνη (Ph5FQ), το καθαρό C60 και το υβριδικό μονομερές Ph5FQ-C60 έχουν επίσης μελετηθεί. Επίσης μελετήθηκαν τα υβριδικά συμπολυμερή P3OT-co-P5FQ και P3OT-co-(P5FQ-Ν-C60) με αναλογία 1:10 για χρήση ως δέκτες ηλεκτρονίων με καλύτερη αναμειξιμότητα με τον δότη. Για την φασματοσκοπική έρευνα τα δείγματα αποτέθηκαν σε υποστρώματα Si με χρήση spin coating από διαλύματα τολουολίου, THF ή χλωροφορμίου. Οι μετρήσεις πραγματοποιήθηκαν σε θάλαμο ανάλυσης υπερυψηλού κενού (βασική πίεση 5x10-9 mbar). Από τις μετρήσεις XPS η κορυφή F1s των μη υβριδικών μορίων εμφανίστηκε σε ενέργεια σύνδεσης (BE) 688.3 eV, μια τιμή που αντιστοιχεί σε άτομα φθορίου με δεσμούς C-F. Η ίδια κορυφή μετατοπίζεται σε χαμηλότερες ενέργειες σύνδεσης σε όλα τα υβριδικά υλικά, υποδεικνύοντας την επίδραση των μορίων C60 στο ηλεκτρονιακό νέφος των φθορίων της κινολίνης. Από τα φάσματα UPS μετρήθηκε το υψηλότερο κατειλημμένο μοριακό τροχιακό (HOMO) σε σχέση με το επίπεδο Fermi καθώς και το κατώφλι υψηλών ενεργειών σύνδεσης (HBE) για κάθε υλικό. Από αυτά, υπολογίστηκε το έργο εξόδου τους, ενώ από το άθροισμα του έργου εξόδου και της ενέργειας σύνδεσης του ΗΟΜΟ υπολογίστηκαν οι Ενέργειες Ιονισμού (ΙΡ). Αυτή είναι μια χρήσιμη παράμετρος για τον χαρακτηρισμό των ημιαγώγιμων πολυμερών επειδή αντιστοιχεί στην απόσταση μεταξύ του ΗΟΜΟ και του επιπέδου κενού και σε συνδυασμό με το ενεργειακό χάσμα (Eg) μπορεί να υπολογιστεί η χαμηλότερο μη κατειλημμένο μοριακό τροχιακό (LUMO). Τα αποτελέσματα δείχνουν ότι οι ιδιότητες των ημιαγώγιμων πολυμερών ή μονομερών μπορούν αποτελεσματικά να επηρεαστούν με υβριδοποίηση με χρήση νανοδομών του άνθρακα, που σε αυτή την περίπτωση είναι το C60. / Organic photovoltaic (OPV) devices present an attractive solution for solar energy applications due to their inherently low material costs, mechanical flexibility, and the potential of scalability to large area, light weight, devices. The most efficient electron accepting materials used so far in OPVs are based on modified fullerenes. However, further improvement is needed in order to achieve more efficient transport of the separated charges to the respective electrodes. Attempts to this direction have been made either by influencing the miscibility between the donor and acceptor phases or by the development of more efficient electron donor or electron acceptor materials. New hybrid materials comprising of fullerene can been used to tune the semiconducting properties of polymers. Since polyquinolines are one of the most promising classes of electron-transporting and electron-accepting polymers for use in various optoelectronic applications their combination with C60 is expected to provide a route for the modulation of their optical, morphological as well as their electronic properties. Previous work has shown that the modification of polyquinolines towards lower LUMO values will increase their electron accepting properties. In this work the electronic properties of various materials that correspond to the sequential synthesis steps of a novel hybrid copolymeric acceptor are investigated by x-ray and UV photoelectron spectroscopies (XPS/UPS). The hybrid material under investigation is the newly synthesised poly-perfluorophenylquinoline(P5FQ-C60) hybridised with C60. The perfluorophenylquinoline monomer (P5FQ, Fig1a), C60 on its own and the hybrid P5FQ-C60 are also studied. The hybrid copolymers P3OT-co-P5FQ and P3OT-co- (P5FQ-N-C60) with a ratio of 1:10 are also studied for use as electron acceptors to confer better miscibility with the donor. For the spectroscopic investigation the samples were deposited on Si substrates by spin coating from toluene,THF or chloroform solutions. The measurements were carried out in an ultrahigh vacuum analysis chamber (base pressure 5x10-9 mbar) equipped with a hemispherical electron energy analyzer, a twin anode X-ray source for XPS and a discharge UV lamp for UPS. The XPS F1s photo-peak from the non hybrid samples appeared at binding energy (BE) 688.3 eV, a value that corresponds to fluorine atoms in C-F bonds. The same peak was shifted to lower binding energy in the case of all hybrid materials. Despite the fact that the F1s peak has a measurable signal, the C1s component corresponding to C-F bonds (BE=289.4 eV) appeared to be at noise level for all the materials under investigation. This is attributed to the fact that the photoionization cross section of C1s is about four times lower than that for F1s. From the UP spectra the Highest Occupied Molecular Orbital (HOMO) with respect to the Fermi Level and the high binding energy (HBE) cut off can be measured. From the latter the work function of the material is calculated, while the sum of the work function and the binding energy of HOMO correspond to the Ionization Potential (IP). This is a useful parameter for the characterization of semiconducting polymers because it corresponds to the distance between the HOMO and the vacuum level and in combination with band gap (Eg) values can be used for the calculation of the Electron Affinity or in other words the Lowest Unoccupied Molecular Orbital (LUMO) position. The results demonstrate that the semiconducting properties of polymeric or monomeric materials can be effectively tuned by hybridization with carbon based nanostructures, in this case C60.
5

Contribuições as técnicas de espectroscopias fototérmicas e aplicações a materiais poliméricos / Contributions for photothermal spectroscopic techniques and applications to polymer materials

Melo, Washington Luiz de Barros 02 December 1992 (has links)
A espectroscopia foto-térmica tem sido largamente usada na investigação de propriedades térmicas e ópticas de materiais sólidos. Neste trabalho, desenvolvemos novas câmaras foto-térmicas as quais foram adaptadas para os estudos de materiais poliméricos. Estendemos o modelo desenvolvido por Mandelis para a espectroscopia fotopiroelétrica (PPES), incluindo nele um termo devido à reflexão de luz na interface amostra-detetor. A aplicação da técnica PPES em filmes de Poli(3-Butiltiofeno) não dopado nos permitiu obter sua condutividade e difusividade térmicas, como também seu gap de energia. Também aplicamos a técnica fotoacústica, com um flash de laser He-Ne, ao estudo de filmes de polímeros transparentes. Finalmente, desenvolvemos um método semi-empírico o qual significa a análise do sinal foto-térmico, quando ele é, principalmente, devido à difusão térmica. / Photothermal spectroscopies have been largely used in the investigation of thermal and optical properties of solids materials. In this work we developed new photothermal cells which were adapted for the study of polymerics materials. We also extended the model developed by Mandelis for the Photopyroeletric Spectroscopy (PPES), including in it a term due to the reflected light in the sample-detector interface. The application of the PPES technique in films of undopedpoly(3-butylthiophene) allowed us to obtain its thermal conductivity and diffusivity, as well as its gap energy. We also applied the photoacoustic technique, with a flash of He-Ne laser to study of transparent films of polymers. Finally we developed a semi-empiric method which simplifies the analysis of the photothermal signal, when it is mainly due to the thermal diffusion.
6

I. Tunable Luminescence in Dendronized Poly(phenyleneethynylene)s Through Post-Polymerization Chemical Modification II. Rigid, Helical Polymers Based Upon Chiral Hydrobenzoin

Sisk, David Theodore January 2007 (has links)
Dendritic encapsulation of poly(phenyleneethynylene)s or PPEs has been shown to enhance photoluminescent quantum efficiency and facilitate energy transfer by funneling photonic energy absorbed on the dendron periphery efficiently to the conjugated polymeric core. The research presented herein focuses on incorporating degradable dendron onto PPEs, examining whether or not similar benefits were conferred upon the proposed system and controlling polymer luminescence through the elimination of the insulating macromolecules. PPEs appended with disassembling dendrons of various generation sizes were synthesized and their optical properties studied. Polymer luminescence was then quenched via chemical degradation of the disassembling dendrons. Furthermore, the macromolecules resulting from disassembly exhibited tunable luminescence properties upon manipulation of pH. Consequently, it was determined that polymer luminescence could be controlled upon forming phenolic moieties along the PPE backbone. Tunable emission was later realized in the thin film as well through the integration of crosslinkable dendrons onto the polymer core.Recently, helical synthetic linear polymers have demonstrated the ability to facilitate stereoselective processes such as catalysis, recognition and separation. Consequently, it has become increasingly desirable to develop new platforms capable of imparting asymmetry. The work presented herein describes the synthesis of a series of polymers based upon chiral hydrobenzoin and the subsequent conformational analysis performed on these materials. It was envisioned that these polymeric materials might inherently possess conformational asymmetry and as result could be able to impart configurationally chirality by introducing a diastereomeric bias for the formation of one enantiomer over the other during the course of the reaction.
7

Calcium vapour deposition on semiconducting polymers studied by adsorption calorimetry and visible light absorption

Hon, Sherman Siu-Man 11 1900 (has links)
A novel UHV microcalorimeter has been used to study the interaction between calcium and three polymers: MEH-PPV, MEH-PPP and P3HT. All three polymers behave differently in their reaction kinetics with calcium. On MEH-PPV we measure 45 μJ/cm² of heat generated in excess of the heat of bulk metal growth, 120 μJ/cm² for MEH-PPP, and 100 μJ/cm² for P3HT. Comparison of the MEH-PPV and MEHPPP data indicate that the initial reaction of calcium with MEH-PPV occurs at the vinylene group. We propose, based on hypothetical models, that calcium reacts with the vinylene groups of MEH-PPV with a reaction heat of 360 kJ/mol and at a projected surface density of 1.7 sites/nm², while it reacts with the phenylene groups of MEH-PPP in a two-step process with reaction heats of 200 and 360 kJ/mol respectively, at a projected surface density of 3.5 sites/nm². Optical absorption experiments, using either a 1.85 eV diode laser or a xenon lamp coupled to a scanning monochromator, have also been performed using the same calorimeter sensor. In the case of MEH-PPV, using the laser we find an optical absorption cross-section of 3E-¹⁷ cm² per incident calcium atom at low coverages. The change in absorptance at higher coverages correlates perfectly with the population of reacted Ca atoms determined calorimetrically. The size of the absorbance cross-section, and its position just within the band gap of the polymer, are consistent with the reaction being one of polaron formation. Calcium does not appear to dope P3HT, while the photon energy range of 1.5 to 3.75 eV used in these experiments is likely too small for probing polaronic energy states in MEH-PPP.
8

New Materials and Architectures for Organic Photovoltaics

Worfolk, Brian J. Unknown Date
No description available.
9

Calcium vapour deposition on semiconducting polymers studied by adsorption calorimetry and visible light absorption

Hon, Sherman Siu-Man 11 1900 (has links)
A novel UHV microcalorimeter has been used to study the interaction between calcium and three polymers: MEH-PPV, MEH-PPP and P3HT. All three polymers behave differently in their reaction kinetics with calcium. On MEH-PPV we measure 45 μJ/cm² of heat generated in excess of the heat of bulk metal growth, 120 μJ/cm² for MEH-PPP, and 100 μJ/cm² for P3HT. Comparison of the MEH-PPV and MEHPPP data indicate that the initial reaction of calcium with MEH-PPV occurs at the vinylene group. We propose, based on hypothetical models, that calcium reacts with the vinylene groups of MEH-PPV with a reaction heat of 360 kJ/mol and at a projected surface density of 1.7 sites/nm², while it reacts with the phenylene groups of MEH-PPP in a two-step process with reaction heats of 200 and 360 kJ/mol respectively, at a projected surface density of 3.5 sites/nm². Optical absorption experiments, using either a 1.85 eV diode laser or a xenon lamp coupled to a scanning monochromator, have also been performed using the same calorimeter sensor. In the case of MEH-PPV, using the laser we find an optical absorption cross-section of 3E-¹⁷ cm² per incident calcium atom at low coverages. The change in absorptance at higher coverages correlates perfectly with the population of reacted Ca atoms determined calorimetrically. The size of the absorbance cross-section, and its position just within the band gap of the polymer, are consistent with the reaction being one of polaron formation. Calcium does not appear to dope P3HT, while the photon energy range of 1.5 to 3.75 eV used in these experiments is likely too small for probing polaronic energy states in MEH-PPP.
10

Contribuições as técnicas de espectroscopias fototérmicas e aplicações a materiais poliméricos / Contributions for photothermal spectroscopic techniques and applications to polymer materials

Washington Luiz de Barros Melo 02 December 1992 (has links)
A espectroscopia foto-térmica tem sido largamente usada na investigação de propriedades térmicas e ópticas de materiais sólidos. Neste trabalho, desenvolvemos novas câmaras foto-térmicas as quais foram adaptadas para os estudos de materiais poliméricos. Estendemos o modelo desenvolvido por Mandelis para a espectroscopia fotopiroelétrica (PPES), incluindo nele um termo devido à reflexão de luz na interface amostra-detetor. A aplicação da técnica PPES em filmes de Poli(3-Butiltiofeno) não dopado nos permitiu obter sua condutividade e difusividade térmicas, como também seu gap de energia. Também aplicamos a técnica fotoacústica, com um flash de laser He-Ne, ao estudo de filmes de polímeros transparentes. Finalmente, desenvolvemos um método semi-empírico o qual significa a análise do sinal foto-térmico, quando ele é, principalmente, devido à difusão térmica. / Photothermal spectroscopies have been largely used in the investigation of thermal and optical properties of solids materials. In this work we developed new photothermal cells which were adapted for the study of polymerics materials. We also extended the model developed by Mandelis for the Photopyroeletric Spectroscopy (PPES), including in it a term due to the reflected light in the sample-detector interface. The application of the PPES technique in films of undopedpoly(3-butylthiophene) allowed us to obtain its thermal conductivity and diffusivity, as well as its gap energy. We also applied the photoacoustic technique, with a flash of He-Ne laser to study of transparent films of polymers. Finally we developed a semi-empiric method which simplifies the analysis of the photothermal signal, when it is mainly due to the thermal diffusion.

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