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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.
51

Colloidal Synthesis and Photophysical Characterization of Group IV Alloy and Group IV-V Semiconductors: Ge1-xSnx and Sn-P Quantum Dots

Tallapally, Venkatesham 01 January 2018 (has links)
Nanomaterials, typically less than 100 nm size in any direction have gained noteworthy interest from scientific community owing to their significantly different and often improved physical properties compared to their bulk counterparts. Semiconductor nanoparticles (NPs) are of great interest to study their tunable optical properties, primarily as a function of size and shape. Accordingly, there has been a lot of attention paid to synthesize discrete semiconducting nanoparticles, of where Group III-V and II-VI materials have been studied extensively. In contrast, Group IV and Group IV-V based nanocrystals as earth abundant and less-non-toxic semiconductors have not been studied thoroughly. From the class of Group IV, Ge1-xSnx alloys are prime candidates for the fabrication of Si-compatible applications in the field of electronic and photonic devices, transistors, and charge storage devices. In addition, Ge1-xSnx alloys are potentials candidates for bio-sensing applications as alternative to toxic materials. Tin phosphides, a class of Group IV-V materials with their promising applications in thermoelectric, photocatalytic, and charge storage devices. However, both aforementioned semiconductors have not been studied thoroughly for their full potential in visible (Vis) to near infrared (NIR) optoelectronic applications. In this dissertation research, we have successfully developed unique synthetic strategies to produce Ge1-xSnx alloy quantum dots (QDs) and tin phosphide (Sn3P4, SnP, and Sn4P3) nanoparticles with tunable physical properties and crystal structures for potential applications in IR technologies. Low-cost, less-non-toxic, and abundantly-produced Ge1-xSnx alloys are an interesting class of narrow energy-gap semiconductors that received noteworthy interest in optical technologies. Admixing of α-Sn into Ge results in an indirect-to-direct bandgap crossover significantly improving light absorption and emission relative to indirect-gap Ge. However, the narrow energy-gaps reported for bulk Ge1-xSnx alloys have become a major impediment for their widespread application in optoelectronics. Herein, we report the first colloidal synthesis of Ge1-xSnx alloy quantum dots (QDs) with narrow size dispersity (3.3±0.5 – 5.9±0.8 nm), wide range of Sn compositions (0–20.6%), and composition-tunable energy-gaps and near infrared (IR) photoluminescence (PL). The structural analysis of alloy QDs indicates linear expansion of cubic Ge lattice with increasing Sn, suggesting the formation of strain-free nanoalloys. The successful incorporation of α-Sn into crystalline Ge has been confirmed by electron microscopy, which suggests the homogeneous solid solution behavior of QDs. The quantum confinement effects have resulted in energy gaps that are significantly blue-shifted from bulk Ge for Ge1-xSnx alloy QDs with composition-tunable absorption onsets (1.72–0.84 eV for x=1.5–20.6%) and PL peaks (1.62–1.31 eV for x=1.5–5.6%). Time-resolved PL (TRPL) spectroscopy revealed microsecond and nanosecond timescale decays at 15 K and 295 K, respectively owing to radiative recombination of dark and bright excitons as well as the interplay of surface traps and core electronic states. Realization of low-to-non-toxic and silicon-compatible Ge1-xSnx QDs with composition-tunable near IR PL allows the unprecedented expansion of direct-gap Group IV semiconductors to a wide range of biomedical and advanced technological studies. Tin phosphides are a class of materials that received noteworthy interest in photocatalysis, charge storage and thermoelectric devices. Dual stable oxidation states of tin (Sn2+ and Sn4+) enable tin phosphides to exhibit different stoichiometries and crystal phases. However, the synthesis of such nanostructures with control over morphology and crystal structure has proven a challenging task. Herein, we report the first colloidal synthesis of size, shape, and phase controlled, narrowly disperse rhombohedral Sn4P3, hexagonal SnP, and amorphous tin phosphide nanoparticles (NPs) displaying tunable morphologies and size dependent physical properties. The control over NP morphology and crystal phase was achieved by tuning the nucleation/growth temperature, molar ratio of Sn/P, and incorporation of additional coordinating solvents (alkylphosphines). The absorption spectra of smaller NPs exhibit size-dependent blue shifts in energy gaps (0.88–1.38 eV) compared to the theoretical value of bulk Sn3P4 (0.83 eV), consistent with quantum confinement effects. The amorphous NPs adopt rhombohedral Sn4P3 and hexagonal SnP crystal structures at 180 and 250 °C, respectively. Structural and surface analysis indicates consistent bond energies for phosphorus across different crystal phases, whereas the rhombohedral Sn4P3 NPs demonstrate Sn oxidation states distinctive from those of the hexagonal and amorphous NPs owing to complex chemical structure. All phases exhibit N(1s) and ʋ(N-H) energies suggestive of alkylamine surface functionalization and are devoid of tetragonal Sn impurities.
52

Μελέτη, χαρακτηρισμός και ιδιότητες νέων υλικών υψηλής τεχνολογίας / Growth, characterization and properties of new high tech materials

Γραμματικόπουλος, Σπυρίδων 11 March 2014 (has links)
Το αντικείμενο της παρούσας Διδακτορικής Διατριβής είναι η ανάπτυξη νέων υλικών για σύγχρονες τεχνολογικές εφαρμογές. Για αυτό τον λόγο, επιλέχτηκε κατ’ αρχήν να αναπτυχθεί μια καινούρια και ταυτόχρονα πρωτότυπη διαδικασία παρασκευής νανοσωματιδίων. Για το σκοπό αυτό σχεδιάστηκε και ανακατασκευάστηκε εξ’ αρχής μια υπάρχουσα συσκευή sputtering, εφαρμόζοντας νέες τεχνικές και διατάξεις για την εναπόθεση των λεπτών και υπέρλεπτων υμενίων χρυσού σε διαφορετικές θερμοκρασίες υποστρώματος. Παρασκευάστηκαν δείγματα σε κρυογενικές θερμοκρασίες εναπόθεσης (-195 oC) έως και σε υψηλές Θερμοκρασίες των 450 oC. Παράλληλα πραγματοποιήθηκε και σύγκριση με μια σειρά δειγμάτων λεπτών υμενίου χρυσού με θερμική ανόπτηση μετά την εναπόθεση έως τους 800 oC. Αφού μελετήθηκε ο τρόπος ανάπτυξης των υμενίων του χρυσού με αυτές τις τεχνικές, και χαρακτηρίστηκαν τα λεπτά υμένια με διαφόρους τρόπους, επιλέχθηκε η πιο αποδοτική από μορφολογικής άποψης μέθοδος, για την παρασκευή νανοσωματιδίων χρυσού. Έτσι παρασκευάστηκαν υπέρλεπτα υμένια χρυσού, κάτω από συγκεκριμένες συνθήκες. Αυτά τα δείγματα έδωσαν νανοσωματίδια χρυσού της τάξεως των μερικών νανομέτρων, ικανά να δώσουν βάση των φασμάτων απορρόφησης, επιφανειακούς πλασμονικούς συντονισμούς σε διάφορα μήκη κύματος από τα 2 - 2,5 eV ανάλογα με το μέγεθος των νανοσωματιδίων που καθορίζουμε από τις συνθήκες του πειράματος. Στην συνέχεια παρασκευάστηκαν αντίστοιχα δείγματα από ένα νέο σύγχρονο υλικό, που αποτελείται από χρυσό, γερμάνιο και άργυρο. Χρησιμοποιώντας την ίδια διάταξη παρασκευάστηκαν αντίστοιχα υπέρλεπτα υμένια, στα οποία ανιχνεύτηκαν υβριδικά νανοσωματίδια χρυσού – αργύρου σε αναλογίες 1:1, προστατευμένα από μια άμορφη υαλώδη μήτρα οξειδίου του γερμανίου. Τέλος, κατά τον οπτικό χαρακτηρισμό των δειγμάτων αυτών και διαπιστώθηκε από τα φάσματα απορρόφησης συνδυασμένος επιφανειακός πλασμονικός συντονισμός. Τέλος, τα μεταλλικά και τα ημιαγώγιμα υπέρλεπτα υμένια έχουν τεράστια σημασία σε διάφορους τομείς της επιστήμης των υλικών και της νανοτεχνολογίας. Έτσι, η πρωτότυπη πειραματική διάταξη που αναπτύχτηκε είναι ενδιαφέρουσα για την παρασκευή μιας πληθώρας νάνο-ηλεκτρομηχανικών και οπτοηλεκτρονικών συστημάτων βασισμένα σε διάφορα σύγχρονα υλικά. / The objective of this Thesis is to develop new high – Tech materials for modern technological applications. For this reason, we have chosen in principle to develop a new prototype manufacturing process for growth of nanoparticles. For this purpose we designed and rebuilt from the beginning an existing D.C. sputtering apparatus to apply new techniques and devices for the deposition of thin and ultrathin films of gold at various substrate temperatures. We prepared samples at cryogenic temperatures deposition (-195 oC) up to a high temperature of 450 oC. The results were compared with a series of samples of thin gold films post annealed up to 800 oC. After studying the growth modes of thin gold films with these techniques, and characterize thin films in different ways, we chose the most efficient method from morphological point of view, for the optimum preparation of gold nanoparticles. So we proceeded to the deposition of ultrathin gold films, under certain conditions. These samples gave us gold nanoparticles in the range of a few nanometers, able to give us surface plasmon resonances at different wavelengths from 2 - 2,5 eV depending on the size of nanoparticles. Then samples were prepared respectively from a modern new target material consisting of gold, germanium and silver. Using the same configuration we were able to prepare ultrathin films. These films were found to consist of Au-Ag nanoparticles self-organized in an amorphous GeOx matrix. Finally, we proceeded to the optical characterization of these samples and found on the absorption spectra combined surface plasmon resonances. Finally, the metal and the semiconductor ultrathin films are crucial in various fields of materials science and nanotechnology. Thus, the original experimental setup which was developed is useful in order to prepare a multitude of nano - electromechanical and optoelectronic systems based on various modern materials.
53

PTC Creo Simulate 3.0

Simmler, Urs 23 June 2015 (has links) (PDF)
Der Vortrag zeigt die Neuigkeiten in PTC Creo Simulate 3.0 auf. Zudem werden 10 "Tips & Tricks" erklärt, welche das Arbeiten effizienter machen.
54

Numerical investigation of horizontal twin-roll casting of the magnesium alloy AZ31 / Numerische Untersuchung des horizontalen Gießwalzens der Magnesiumlegierung AZ31

Miehe, Anja 07 August 2014 (has links) (PDF)
The horizontal twin-roll casting (TRC) process is an energy saving and cost-efficient method for producing near-net-shape sheets of castable metals for light-weight production. In order to investigate the TRC process numerically, a code is generated in OpenFOAM and the commercial software STAR-CCM+ is used. Both are validated with the Stefan problem, the gallium melting test case, and a continuous casting experiment for magnesium AZ31. Different solidification models are tested that are similar to solution domain definitions and solid-fraction temperature relations. The comparison with temperature measurements of the MgF GmbH Freiberg pilot plant and the final microstructure exhibits good correlation. Sensitivity studies are carried out for thermophysical properties of AZ31 as well as pilot plant parameters. Furthermore, the rolls are incorporated into the simulation to determine the effect of a location-dependent heat-transfer coefficient. Finally, the results are compared to a second pilot plant situated at the Helmholtz-Centre Geesthacht in order to explore differences and similarities. / Das horizontales Gießwalzen ist eine energiesparende und kostengünstige Methode zur Erzeugung von Flachprodukten, die im Leichtbau verwendet werden. Um dieses Verfahren numerisch zu untersuchen wurde ein Programmcode in OpenFOAM entwickelt und die kommerzielle Software STAR-CCM+ verwendet, wobei beide mit dem Stefan Problem, dem Schmelzen von Gallium und Messdaten des Stranggusses von Magnesium AZ31 validiert wurden. Verschiedene Erstarrungsmodelle werden ebenso getestet wie Variationen des Simulationsbereiches und Feststoff-Temperatur-Verläufe. Vergleiche mit Temperaturmessdaten der Pilotanlage MgF GmbH Freiberg und der finalen Mikrostruktur zeigen gute Übereinstimmungen. Sensitivitätsanalysen werden durchgeführt, um die Einflüsse von thermophysikalischen Eigenschaften und Anlagenparametern abzuschätzen. Des Weiteren werden die Walzen in die Simulation mit einbezogen, um den Effekt eines lokal veränderlichen Wärmeübergangskoeffizienten zu beurteilen. Schließlich werden die Ergebnisse mit denen einer zweiten Pilotanlage am Helmholtz-Zentrum Geesthacht verglichen. / Le laminage de coulée continue horizontal possède une faible consommation d’énergie et est bon marché pour la production des feuilles de métaux coulables utilisés dans la construction légère. Afin d’examiner ce processus numériquement, un code est généré dans OpenFOAM et le logiciel commercial STAR-CCM+ est utilisé, tous les deux sont validés en utilisant le problème de Stefan, la fusion du gallium et la coulée continue verticale de magnésium AZ31. Plusieurs modèles de solidification sont testés, ainsi que la variation du domaine de simulation, et des rélations entre la teneur en matière solide et la température. Des comparaisons avec des résultats de mesures de la température à l’installation pilote de MgF GmbH Freiberg ainsi que la microstructure donnent des bons résultats. Des analyses de sensibilité sont effectuées afin d’évaluer l’influence des propriétés thermophysiques et des paramètres de l’installation. De plus, les cylindres sont intégrés dans la simulation pour estimer l’impact du coefficient de transfert de chaleur dépendant du lieu. Finalement, les résultats sont comparés avec ceux du Helmholtz-Centre Geesthacht.
55

Synthesis of Novel Extremely Sterically Hindered Tertiary Alkylamines

Shoker, Tharallah A. 18 April 2018 (has links)
Three advanced methodologies for the preparation of extremely sterically hindered tertiary alkyl amines have been developed. The syntheses of 28 novel tertiary alkylamines that accommodate unusual steric hindrance are detailed. The electrophilic amination of alkyl Grignard reagents with N-chlorodialkylamines, in the presence of N,N,N′,N′-tetramethylethylenediamine (TMEDA) as a key additive, gives a variety of unprecedentedly sterically hindered tertiary alkylamines in good yields. Alternative strategy to 1-adamantyl-substituted (1-Ad) sterically hindered tertiary amines, which involved instead an SN1 reaction between 1-Ad cation with various secondary amines, is described. A complementary strategy to 1-Ad-based sterically hindered tertiary amines, which involves an iminium salt intermediate, is also reported. Salient features of the three protocols that are detailed here include unusual tolerance of steric hindrance, mild reaction conditions employed, ease of product isolation-purification, and absence of catalysts/transition metals. The molecular structures of two faithful examples of extremely sterically hindered tertiary alkylamines were determined by single crystal X-ray diffraction, and the height “h” of nitrogen pyramid of these compounds were measured. The NMR spectra show a restriction in rotation at room temperature among many hindered tertiary amines, and some of them exhibit two complete sets of peaks for two non-equivalent rotamers at room temperature. 15N NMR has been applied to study the structural changes in highly sterically hindered tertiary amines. Most of these compounds have been shown to undergo Hofmann type elimination reaction upon thermolysis at 100 degree in inert solvents, like toluene. / In der vorliegenden Arbeit wurden drei Methoden zur Synthese von tertitären Aminen mit extremer sterischer Hinderung entwickelt und zur Synthese von 28 neuen tertiären Alkylaminen mit entsprechender sterischer Hinderung angewendet. Die elektrophile Aminierung von Grignard-Reagenzien mit N-Chlordialkylaminen, unter Zusatz von N,N,N′,N′-Tetramethylethylendiamin (TMEDA) als Schlüsselkomponente, ermöglicht einen einfachen Zugang zu einer Vielzahl von tertiären Aminen mit extremer sterischer Hinderung mit guten Ausbeuten. Eine alternative Synthesestrategie unter SN1-Bedingungen führt zu sterisch-gehinderten 1-Adamantyl-substituierten (1-Ad) tertiären Aminen durch die Reaktion eines 1-Ad-Kations mit unterschiedlichen sterisch-gehinderten sekundären Aminen. Angelehnt an die zuvor beschriebene Reaktion können auch sterisch gehinderte Imine über eine Iminium-Salz-Zwischenstufe zu sterisch-gehinderten 1-Ad-substituierten tertiären Aminen umgesetzt werden. Auch in diesen Fall zeichnet sich die Reaktion durch eine bemerkenswerte Toleranz gegenüber sterischer Hinderung, milden Reaktionsbedingungen, leichte Produktisolierbarkeit und die Abwesenheit von Übergangsmetallkatalysatoren aus. Die molekulare Struktur zweier repräsentativer tertiärer Alkylamine mit extremer sterischer Hinderung wurde mittels Röntgeneinkristallstrukturanalyse untersucht und die Höhe “h” ihrer Stickstoff-Pyramide bestimmt. Die NMR-Spektren zeigen bei RT eine Einschränkung der freien Rotation um die N-C-Bindungsachse, teilweise führt dies zu vollständig getrennten Signalsätzen für die einzelnen Rotamere. 15N-NMR-Spektroskopie wurde ebenfalls zur Untersuchung von Strukturveränderungen genutzt. In inerten Lösungsmitteln, wie Toluol, zeigen die Verbindungen bei 100 °C in den meisten Fällen eine Hofmann-Eliminierung.
56

Numerical investigation of horizontal twin-roll casting of the magnesium alloy AZ31

Miehe, Anja 22 July 2014 (has links)
The horizontal twin-roll casting (TRC) process is an energy saving and cost-efficient method for producing near-net-shape sheets of castable metals for light-weight production. In order to investigate the TRC process numerically, a code is generated in OpenFOAM and the commercial software STAR-CCM+ is used. Both are validated with the Stefan problem, the gallium melting test case, and a continuous casting experiment for magnesium AZ31. Different solidification models are tested that are similar to solution domain definitions and solid-fraction temperature relations. The comparison with temperature measurements of the MgF GmbH Freiberg pilot plant and the final microstructure exhibits good correlation. Sensitivity studies are carried out for thermophysical properties of AZ31 as well as pilot plant parameters. Furthermore, the rolls are incorporated into the simulation to determine the effect of a location-dependent heat-transfer coefficient. Finally, the results are compared to a second pilot plant situated at the Helmholtz-Centre Geesthacht in order to explore differences and similarities. / Das horizontales Gießwalzen ist eine energiesparende und kostengünstige Methode zur Erzeugung von Flachprodukten, die im Leichtbau verwendet werden. Um dieses Verfahren numerisch zu untersuchen wurde ein Programmcode in OpenFOAM entwickelt und die kommerzielle Software STAR-CCM+ verwendet, wobei beide mit dem Stefan Problem, dem Schmelzen von Gallium und Messdaten des Stranggusses von Magnesium AZ31 validiert wurden. Verschiedene Erstarrungsmodelle werden ebenso getestet wie Variationen des Simulationsbereiches und Feststoff-Temperatur-Verläufe. Vergleiche mit Temperaturmessdaten der Pilotanlage MgF GmbH Freiberg und der finalen Mikrostruktur zeigen gute Übereinstimmungen. Sensitivitätsanalysen werden durchgeführt, um die Einflüsse von thermophysikalischen Eigenschaften und Anlagenparametern abzuschätzen. Des Weiteren werden die Walzen in die Simulation mit einbezogen, um den Effekt eines lokal veränderlichen Wärmeübergangskoeffizienten zu beurteilen. Schließlich werden die Ergebnisse mit denen einer zweiten Pilotanlage am Helmholtz-Zentrum Geesthacht verglichen. / Le laminage de coulée continue horizontal possède une faible consommation d’énergie et est bon marché pour la production des feuilles de métaux coulables utilisés dans la construction légère. Afin d’examiner ce processus numériquement, un code est généré dans OpenFOAM et le logiciel commercial STAR-CCM+ est utilisé, tous les deux sont validés en utilisant le problème de Stefan, la fusion du gallium et la coulée continue verticale de magnésium AZ31. Plusieurs modèles de solidification sont testés, ainsi que la variation du domaine de simulation, et des rélations entre la teneur en matière solide et la température. Des comparaisons avec des résultats de mesures de la température à l’installation pilote de MgF GmbH Freiberg ainsi que la microstructure donnent des bons résultats. Des analyses de sensibilité sont effectuées afin d’évaluer l’influence des propriétés thermophysiques et des paramètres de l’installation. De plus, les cylindres sont intégrés dans la simulation pour estimer l’impact du coefficient de transfert de chaleur dépendant du lieu. Finalement, les résultats sont comparés avec ceux du Helmholtz-Centre Geesthacht.
57

PTC Creo Simulate 3.0

Simmler, Urs 23 June 2015 (has links)
Der Vortrag zeigt die Neuigkeiten in PTC Creo Simulate 3.0 auf. Zudem werden 10 "Tips & Tricks" erklärt, welche das Arbeiten effizienter machen.
58

Physics-Based Modeling of Degradation in Lithium Ion Batteries

Surya Mitra Ayalasomayajula (5930522) 03 October 2023 (has links)
<h4>A generalized physics-based modeling framework is presented to analyze: (a) the effects of temperature on identified degradation mechanisms, (b) interfacial debonding processes, including deterministic and stochastic mechanisms, and (c) establishing model performance benchmarks of electrochemical porous electrode theory models, as a necessary stepping stone to perform valid battery degradation analyses and designs. Specifically, the effects of temperature were incorporated into a physics-based, reduced-order model and extended for a LiCoO<sub>2</sub> -graphite 18650 cell. Three dimensionless driving forces were identified, controlling the temperature-dependent reversible charge capacity. The identified temperature-dependent irreversible mechanisms include homogeneous SEI, at moderate to high temperatures, and the chemomechanical degradation of the cathode at low temperatures. Also, debonding of a statistically representative electrochemically active particle from the surrounding binder-electrolyte matrix in a porous electrode was modeled analytically, for the first time. The proposed framework enables to determine the space of C-Rates and electrode particle radii that suppresses or enhances debonding and is graphically summarized into performance–microstructure maps where four debonding mechanisms were identified, and condensed into power-law relations with respect to the particle radius. Finally, in order to incorporate existing or emerging degradation models into porous electrode theory (PET) implementations, a set of benchmarks were proposed to establish a common basis to assess their physical reaches, limitations, and accuracy. Three open source models: dualfoil, MPET, and LIONSIMBA were compared, exhibiting significant qualitative differences, despite showing the same macroscopic voltage response, leading the user to different conclusions regarding the battery performance and possible degradation mechanisms of the analyzed system.</h4>
59

Phonons in 1-D Graphene Nanoribbons Probed with Raman Spectroscopy : Unraveling Fundamental Properties in 9-atom-wide Graphene Nanoribbons

Victor Labordet Alvarez, Angel January 2023 (has links)
This report employs advanced Raman spectroscopy techniques to investigate the fundamental properties of 9-AGNRs comprehensively. It is divided into two main sections addressing distinct aspects of 9-AGNR behavior. In the first section, Polarization Raman spectroscopy (PRS) probes phonon mode symmetries in 9-AGNRs. Our analysis reveals deviations from predicted symmetries, suggesting the presence of lattice defects. We also investigate specific phonon modes (G, D, and RBLM), providing insights into lattice integrity. The second section employs temperature-dependent Raman spectroscopy to explore the thermal properties of 9-AGNRs. This dynamic analysis quantifies vibrational mode responsiveness to temperature variations using the Grüneisen parameter (χ). Comparisons across various carbon-based materials uncover distinct sensitivities and stabilities. This research advances our understanding of 9-AGNR properties, with implications for nanomaterial science and potential applications. / Denna rapport använder avancerade Raman spektroskopitekniker för att på ett omfattande sätt undersöka de grundläggande egenskaperna hos 9-AGNRs. Den är uppdelad i två huvudsektioner som tar upp distinkta aspekter av 9-AGNR beteende. I det första avsnittet sonderar Polarisation Raman spektroskopi (PRS) fononlägessymmetrier i 9-AGNRs. Vår analys avslöjar avvikelser från förutsagda symmetrier, vilket tyder på närvaron av gitterdefekter. Vi undersöker också specifika fononlägen (G, D och RBLM), vilket ger insikter om gitterintegritet. Den andra sektionen använder temperaturberoende Raman-spektroskopi för att utforska de termiska egenskaperna hos 9-AGNRs. Denna dynamiska analys kvantifierar vibrationslägets känslighet för temperaturvariationer med hjälp av Grüneisen-parametern (χ). Jämförelser mellan olika kolbaserade material avslöjar distinkta känsligheter och stabiliteter. Denna forskning främjar vår förståelse av 9-AGNR-egenskaper, med implikationer för nanomaterialvetenskap och potentiella tillämpningar.
60

Pyroelektrische Materialien: elektrisch induzierte Phasenumwandlungen, thermisch stimulierte Radikalerzeugung

Mehner, Erik 17 October 2018 (has links)
Zur Messung pyrelektrischer Koeffzienten wurde ein Messplatz nach einem erweiterten SHARP-GARN-Verfahren entwickelt und zur Untersuchung von Phasenumwandlungen in Pyroelektrika eingesetzt. Einerseits konnten pyroelektrische Messungen im elektrischen Feld die Pyroelektrizität einer neuen durch elektrisch angetriebene Defektmigration erzeugten Phase in Strontiumtitanat nachweisen. Andererseits gelang es, Ferroelektrizität in der Hochtemperaturphase von Poly(Vinylidenfluorid-Trifluorethylen), mittels phasenreiner Präparation der Hochtemperaturphase unterhalb der CURIEtemperatur und anschließender Polarisierung, nachzuweisen. Ferner ließen sich mittels thermisch angeregter Pyroelektrika Redoxprozesse antreiben, was durch Desinfektion von Escherichia coli Bakterien in wässriger Lösung mittels Lithiumniobat und -tantalat gezeigt wurde. Die Hypothese der Desinfektion durch reaktive Sauerstoffspezies konnte durch spektroskopisch nachgewiesene OH-Radikale - erzeugt mittels thermisch angeregter Bariumtitanatnanopartikel - belegt werden.

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