Efetividade do uso t?pico de fluoreto e da escova??o no controle de c?ries produzidas "in vivo"

Flor?ncio Filho, C?cero

14 August 2008

Made available in DSpace on 2014-12-17T14:13:37Z (GMT). No. of bitstreams: 1 CiceroFF.pdf: 3167978 bytes, checksum: d9de3f0c1f071f112b7a1ab53a79b32c (MD5) Previous issue date: 2008-08-14 / The objective of this clinical study was to evaluate the effectiveness of the toothbrushing with and without fluoride and the daily fluoride rinse (NaF 0.05%) on produced white spot, in vivo. This was a clinical study, controlled, randomized and triple blind. Thirty patients were selected for orthodontics reasons from Orthodontics Specialization Course at the Brazilian Dental Association - Section of Rio Grande do Norte. In this study it was used 4 bicuspid upper and lower. They had orthodontic reason for extractions, in 35 days, at least. The sample had one hundred and twenty teeth that received orthodontic bands. The bands were fixed with polycarboxylate cement, and there was a space standardized between bands and one surface of teeth. The four bicuspid of each patients were randomized and nominated as A, B, C and D. These nominations determinated the sequence of the extractions and what was done in each tooth. All the patients had been submitted to the toothbrushing with or without fluoride for 35 days. After this period, the A tooth of each patient was extracted to serve as control. The others teeth (B, C and D) were extracted one by each week. The entire sample was analyzed through the clinical examination and by laser fluorescence (DIAGNOdent?) in three different times: before orthodontic bands, 28 days after fixed and then removed the bands and, the last one, 07 days after one of the three treatments (toothbrushing with or without fluoride, tooth paste with fluoride and mouth rinse with fluoride). At the beginning all groups (A, B, C and D) had the same conditions, no significant difference was found. The same situation was found in a clinical examination. The results of the DIAGNOdent? for the groups that used tooth paste without fluoride, with fluoride and mouth rinse with fluoride, after 28 days, there was no significant difference. Clinically, the white spot was formed in all teeth after 28 days. When it was compared the three treated groups, the group without fluoride in tooth paste had worst result than the others groups. But there was no significant association between the number of active and inactive white spots and the type of treatment that the teeth had received. The demineralization of the enamel surface, under the orthodontic bands, it happened in a few weeks. The exposition of the white spots in oral environmental resulted in an improvement, but it was not enough to return to the values from the base line, either for the toothbrushing and/or the use of fluorite mouth rinse. Mouth rinse and toothpaste with fluoride have showed to reduce the incidence of demineralization in the enamel, but none seems to be superior to another one in an in vivo study / O objetivo desse estudo cl?nico foi avaliar a efetividade da escova??o com e sem dentifr?cio fluoretado e o enxaguat?rio bucal fluoretado na forma de bochecho di?rio (NaF 0,05%) associado a escova??o com dentifr?cio fluoretado sobre as les?es brancas de esmalte produzidas in vivo. Este estudo se constituiu em um ensaio cl?nico controlado e randomizado. Para tanto, foram selecionados 32 pacientes do Curso de Especializa??o em Ortodontia da Associa??o Brasileira de Odontologia Sec??o do Estado do Rio Grande do Norte, que necessitavam como parte do tratamento de exodontias. Os cento e vinte e oito dentes receberam an?is ortod?nticos, cimentados com cimento de policarboxilato, com espa?o padronizado na superf?cie vestibular, S?tio Cariog?nico . Os quatro premolares de cada paciente foram aleatorizados individualmente, em dente A, B, C e D, com a finalidade de se determinar a seq??ncia das exodontias e os tipos de procedimentos a serem realizados para cada dente. Todos os pacientes foram submetidos ? escova??o com dentifr?cio sem fl?or por um per?odo de 35 dias. Ap?s esse per?odo, o dente A de cada paciente foi extra?do para servir como controle. Os demais dentes B, C e D foram extra?dos ap?s uma, duas e tr?s semanas, respectivamente. Os esp?cimes foram analisados atrav?s do exame cl?nico e da fluoresc?ncia a laser (DIAGNOdent?) antes da cimenta??o dos an?is ortod?nticos, 28 dias ap?s o desafio cariog?nico e 07 dias ap?s ter sido submetido a um dos tr?s tratamentos (escova??o com dentifr?cio sem fl?or, dentifr?cio com fl?or e bochecho com enxaguat?rio bucal fluoretado associado a escova??o com dentifr?cio com fl?or) institu?dos nesse estudo. Clinicamente, a les?o branca foi formada em todos os elementos dent?rios analisados ap?s 28 dias do desafio cariog?nico. Observou-se que n?o houve diferen?a estat?sticamente significativa entre as medianas para os valores do DIAGNOdent? e para os valores dos escores relacionados ao exame cl?nico entre os grupos de tratamentos ap?s 07 dias. Quando comparou-se os tr?s grupos tratados, o grupo dentifr?cio sem fl?or apresentou um n?mero de les?es brancas ativas maior que os grupos dentifr?cio com fl?or e bochecho com fl?or, nos quais ocorreu um predom?nio do n?mero de les?es brancas inativas. No entanto, n?o houve associa??o significativa entre o n?mero de les?es brancas ativas e inativas e o tipo de tratamento que os dentes receberam. A desmineraliza??o do esmalte subjacente aos an?is ortod?nticos mal adaptados ? um processo r?pido e ocorre dentro de poucas semanas. A exposi??o das les?es brancas de esmalte, ativas ao meio bucal, resulta em uma r?pida inativa??o das mesmas, mas n?o o suficiente para retornar aos valores da linha base, seja por dist?rbios mec?nicos da escova??o e/ou a utiliza??o de enxaguat?rio bucal fluoretado associado ao dentifr?cio fluoretado. Os dentifr?cios a base de fl?or e os enxaguat?rios bucais fluoretados t?m mostrado reduzir a incid?ncia de desmineraliza??o do esmalte, mas nenhum parece ser superior ao outro tomando como base o modelo de c?rie in vivo

Dentifr?cio

Esmalte dent?rio

Escova??o dent?ria

Enxaguat?rios bucais

Les?es brancas de esmalte

Fl?or

Laser DIAGNOdent?

Dentifrice

DIAGNOdent? laser

Enamel

Toothbrush

Mouthrinse

Fluoride

White spots lesions

Caracterização de uma microválvula fabricada usando o polímero piezoelétrico poli(fluoreto de vinilideno) (PVDF) integrada a saída de um microbocal sônico / Characterization of a microvalve using the piezoelectric polymer poly(viniyidene fluoride) (PVDF) integrated to a micronozzle end

Rodrigo Sérgio Wiederkehr

17 December 2007

Este trabalho descreve a seqüência de fabricação de uma microválvula piezoelétrica posicionada na saída de um microbocal sônico. A técnica usada para fabricar os microbocais foi o jateamento utilizando pó de alumina e o substrato usado foi de vidro. As microválvulas são atuadores fabricados com o polímero poli(fluoreto de vinilideno) (PVDF) que é um material piezoelétrico. Os microbocais têm um formato convergente-divergente com diâmetro na entrada de 1 mm e com diâmetro na garganta em cerca de 240 microns. O atuador foi fabricado no modo bimorfo (duas folhas do polímero coladas com polarização opostas) com dimensões de 3 mm de largura por 6 mm de comprimento. Ambas as folhas do polímero são recobertas por um filme condutor de 200 nm de espessura usados como eletrodos. Aplicando uma voltagem entre os eletrodos uma folha expande enquanto a outra contrai gerando um movimento vertical do atuador. O movimento vertical pode ser maior ou menor dependendo do valor da tensão aplicada. Os dispositivos foram testados usando uma linha de gás, aplicando tensões DC e AC nos eletrodos do atuador. Para controle, também foram realizadas medidas em bocais sem atuadores. No caso onde foram aplicadas tensões DC nos atuadores, a pressão de entrada foi constante de 266 Pa. Aplicando uma tensão de +300 V DC nos eletrodos, o atuador teve um movimento vertical na direção oposta ao do microbocal de 20 microns (movimento de abertura). Neste caso o fluxo de gás medido, quando a razão de pressão entre a entrada e a saída atingiu 0,5, foi de 150 cm3/min. Aplicando uma tensão de -300 V DC (o que significa um movimento vertical de fechamento de 13 microns), o fluxo de gás medido, quando a razão de pressão foi de 0,5, foi de 134 cm3/min. Assim, existe uma faixa de fluxo entre 134 cm3/min e 150 cm3/min que pode ser controlada através do atuador. Em uma das medidas onde se aplicou uma tensão AC (200 V com 5 Hz de freqüência), foi utilizada uma pressão de entrada 13300 Pa. Neste caso, para uma razão de pressão de 0,5, onde o bocal se encontrava blocado, foi observado um fluxo de 847 cm3/min. Considerando que o fluxo do bocal sem atuador, nas mesmas condições de medida foi de 614 cm3/min, concluímos que o dispositivo no modo AC funciona como uma microbomba. A relevância deste trabalho está a utilização do poli(fluoreto vinilideno) (PVDF) na fabricação de um atuador para uso como microválvula. Este material que ainda não havia sido testado para esta finalidade. A fabricação dos microbocais foi feita em um substrato de vidro usando a técnica de jateamento também é inédita. Esta técnica é bastante usada na fabricação de microestruturas na superfície do vidro. Mas nunca tinha sido usada para a fabricação de microbocais que são canais em formato cônico que atravessam o substrato. / This work describes the fabrication and test of a microvalve integrated in a micronozzle. The technique used to fabricate the micronozzles was powder blasting using aluminum oxide powder and glass as substrate. The microvalves are actuators made from PVDF (poli(vinylidene fluoride)), that is a piezoelectric polymer. The micronozzles have convergent-divergent shape with diameter of 1mm at the entrance and throat around 240µm. The actuators were fabricated as a bimorph structure (two piezoelectric sheets were clamped together with opposite polarization) with dimensions 3 mm width and 6 mm length. Both sheets are recovered with a conductive thin film with 200 nm of thickness used as electrodes. Applying voltage between the electrodes one sheet expands while the other contracts and this generate a vertical movement to the entire actuator. If the voltage is changed, this movement can be higher or lower. The devices were tested in a gas line applying DC and AC voltages between the actuator\'s electrodes. Measurements were also realized using a micronozzle without actuator, for control. In the case where DC voltage was applied between the actuators electrodes, the inlet pressure was kept constant in 266 Pa. Applying +300V DC voltage between the electrodes, the actuator moved 20µm vertically in the opposite direction of the micronozzle (it opened). In this case the volume flux rate, for a pressure ratio (outlet / inlet) of 0.5, was 150 cm3/min. Applying -300V DC between the electrodes (that means it closed 13 microns in the micronozzle direction), for a pressure ratio of 0.5, the volume flux rate was 134 cm3/min. With these results, we conclude that it is possible to control the flow through the device in the range between 134 and 150 cm3/min. Flow measurements were also performed applying AC voltage (200V AC with frequency of 5 Hz) between the actuator electrodes and with the inlet pressure kept constant in 13300 Pa. In this case, with a pressure ratio (outlet / inlet) of 0.5, blocking the micronozzle, the flow rate measured was 847 cm3/min. Considering that the flow rate measured for the micronozzle without actuator was 614 cm3/min, in the same measurement conditions, we concluded that the device, in AC mode, was working as a micropump. The relevance of this work was the use of the poly(vinylidene) (PVDF) in the fabrication of the actuators and use it as a microvalve. The micronozzles were fabricated in a glass substrate using the powder blasting technique that was also new.

1. atuador piezoelétrico

3. Física da matéria condensada

4. Sistemas microeletromecânicos.

1. Piezoelectric actuator

3. Physics of Condensed Matter

4. Microelectromechanical systems

Diode-Pumped High-Energy Laser Amplifiers for Ultrashort Laser Pulses / Diodengepumpte hochenergetische Laserverstärker für ultrakurze Laserpulse. Das PENELOPE Lasersystem

Loeser, Markus

22 January 2018

The ultrashort chirped pulse amplification (CPA) laser technology opens the path to high intensities of 10^21 W/cm² and above in the laser focus. Such intensities allow laser-matter interaction in the relativistic intensity regime. Direct diode-pumped ultrashort solid-state lasers combine high-energy, high-power and efficient amplification together, which are the main advantages compared to flashlamp-pumped high-energy laser systems based on titanium-doped sapphire. Development within recent years in the field of laser diodes makes them more and more attractive in terms of total costs, compactness and lifetime. This work is dedicated to the Petawatt, ENergy-Efficient Laser for Optical Plasma Experiments (PENELOPE) project, a fully and directly diode-pumped laser system under development at the Helmholtz–Zentrum Dresden – Rossendorf (HZDR), aiming at 150 fs long pulses with energies of up to 150 J at repetition rates of up to 1 Hz. The focus of this thesis lies on the spectral and width manipulation of the front-end amplifiers, trivalent ytterbium-doped calcium fluoride (Yb3+:CaF2) as gain material as well as the pump source for the final two main amplifiers of the PENELOPE laser system. Here, all crucial design parameters were investigated and a further successful scaling of the laser system to its target values was shown. Gain narrowing is the dominant process for spectral bandwidth reduction during the amplification at the high-gain front-end amplifiers. Active or passive spectral gain control filter can be used to counteract this effect. A pulse duration of 121 fs was achieved by using a passive spectral attenuation inside a regenerative amplifier, which corresponds to an improvement by a factor of almost 2 compared to the start of this work. A proof-of-concept experiment showed the capability of the pre-shaping approach. A spectral bandwidth of 20nm was transferred through the first multipass amplifier at a total gain of 300. Finally, the predicted output spectrum calculated by a numerical model of the final amplifier stages was in a good agreement with the experimental results. The spectroscopic properties of Yb3+:CaF2 matches the constraints for ultrashort laser pulse amplification and direct diode pumping. Pumping close to the zero phonon line at 976nm is preferable compared to 940nm as the pump intensity saturation is significantly lower. A broad gain cross section of up to 50nm is achievable for typical inversion levels. Furthermore, moderate cryogenic temperatures (above 200K) can be used to improve the amplification performance of Yb3+:CaF2. The optical quality of the doped crystals currently available on the market is sufficient to build amplifiers in the hundred joule range. The designed pump source for the last two amplifiers is based on two side pumping in a double pass configuration. However, this concept requires the necessity of brightness conservation for the installed laser diodes. Therefore, a fully relay imaging setup (4f optical system) along the optical path from the stacks to the gain material including the global beam homogenization was developed in a novel approach. Beside these major parts the amplifier architecture and relay imaging telescopes as well as temporal intensity contrast (TIC) was investigated. An all reflective concept for the relay imaging amplifiers and telescopes was selected, which results in several advantages especially an achromatic behavior and low B-Integral. The TIC of the front-end was improved, as the pre- and postpulses due to the plane-parallel active-mirror was eliminated by wedging the gain medium.

Ultrakurzpulse Laser

Hochernergielaser

Hochintenstitätslaser

ultrashort laser pulse

CPA

chirped pulse amplification

Ytterbium laser

Calcium fluoride

PENELOPE laser system

petawatt laser

high-energy laser

high.intensity laser

laser matter interaction

ddc:530

rvk:UH 5616

Microporous Membranes Derived using Crystallisation Induced Phase Separation in PVDF/PMMA (Polyvinylidene Fluoride/ Polymethyl Methacrylate) Blends in Presence of Multiwalled Carbon Nanotubes

Sharma, Maya

January 2017

Segmental chain dynamics in polymer blends is a very important topic, not only from a fundamental point of view but also from technological applications. Because of the difficulties in the commercialization of new polymers, industries have turned increasingly towards blending of polymers to optimise their end use (mechanical, rheological) properties. The design of tailor-made materials would be enormously facilitated by the understanding of the blending phenomena at a molecular level. The key question to address is to understand the dynamics of each component of the blend modified by blending? The thesis has systematically studied the effect of multiwalled carbon nanotubes on the chain dynamics, demixing temperature, structural properties and evolution of morphology in a classical miscible polymer blend system (PVDF/PMMA). The thesis comprises of six chapters, Chapter 1 is an introductory chapter that outlines the fundamentals of polymer blends, crystallisation in polymer blends and the basics of dielectric spectroscopy. As one of the rationales of this work is to systematic study whether phase separated in these blends can be used as a tool to develop membrane for water purification. This chapter also gives an overview of the reported studies of ultrafiltration membrane fabrication, factors affecting membrane morphology and flux. In Chapter 2, the materials and methodology used to carry out experiments and the experimental procedures are discussed. Chapter 3 discusses the effect of concentration of PMMA and amine functionalized multiwalled carbon nanotubes (MWNTs) on the crystallisation induced phase separation using FTIR, XRD, POM and shear rheology. Electron microscopy and selective etching confirmed the localisation of MWNTs in the PVDF phase of the blends. Blends with MWNTs facilitated in heterogeneous nucleation manifesting in an increase in crystallisation temperature. The crystallisation induced phase separation in PVDF/PMMA blends was observed to influence the interconnected network of MWNTs in the blends. Chapter 4 discuss the effect of concentration of PMMA and MWNTs on the miscibility and the segmental relaxations was probed in situ by DSC and dielectric relaxation spectroscopy (DRS). The dynamic heterogeneity in the blends as manifested by the presence of an extra relaxation at a higher frequency at or below the crystallisation induced phase separation temperature was also discussed. We found that PVDF/PMMA blend (PVDF ≥ 80 wt%) exhibits three distinct relaxations; αc corresponding to crystalline PVDF, αβ segmental relaxation of PMMA and αm of amorphous miscibility whereas all relaxations overlap and constitute a single broad relaxation in PVDF/PMMA blend (PVDF ≤ 70 wt%). This confirms that there is a certain composition width in this blend wherein three distinct relaxations can be traced. This could due to many reasons like the width of crystal-amorphous interphase in the crystal lamellae, crystal size and morphology is strongly contingent on the concentration of PMMA. Relaxations are not very distinct in presence of MWNTs due to defective spherulites that shift the relaxations towards a higher frequency. Chapter 5 has attempted to tune the microporous morphology of PVDF membranes using crystallisation induced phase separation in PVDF/PMMA blends. As PVDF/PMMA is a melt-miscible blend, the samples were allowed to crystallise and the amorphous PMMA phase, which isolates in the interlamellar or inter-spherulitic regions in the blends, was etched out to generate microporous structures. The pore sizes can be tuned by varying the PMMA concentration in the blends. We observed that 60/40 PVDF/PMMA blends showed larger pores as compared to 90/10 PVDF/PMMA blends. We further modified PVDF membranes by sputtering silver on the surface. The bacterial cell viability was distinctly suppressed (99 %) in silver sputtered membranes. The ICP analysis suggests that slow Ag+ ions release from the sputtered membrane surface assisted in developing antibacterial surface. Our findings open new avenues in designing water filtration membranes and also help in understanding the crystallisation kinetics for tuning pore size in membranes. Chapter 6 summarises the important results of this work. MWNTs act as hetero nucleating agent and specifically interact with PVDF thereby influences the dynamics of PVDF chains. MWNTs can also restrict the amorphous segmental mobility and can influence the intermolecular cooperativity and coupling. The crystallisation induced phase separation in various blends can result in various crystalline morphologies depending on the PVDF concentration. By selectively etching PMMA from the phase-separated blends, microporous morphology can be generated

Segmental Chain Dynamics

Micro Porous Membrane Crystallization

Dielectric Relaxations

Debye Relaxations

Non-Debye Relaxation - Models

Polymer Blends

PVDF/PMMA Blends

Multi-walled Carbon Nanotubes (MWNTs)

PVDF Membranes

Graphene Oxide

Multiwalled Carbon Nanotubes

PMMA

Nanoscience

Verres et vitrocéramiques fluorés dopés terre rare et/ou métal de transition pour la conversion de l'énergie solaire / Rare-earth and/or transition metal activated fluoride glass and glass-ceramics for solar energy conversion

Maalej, Olfa

10 November 2015

L’efficacité des cellules solaires peut être améliorée en exploitant pleinement la partie UV-bleue du spectre solaire, par un mécanisme de conversion de fréquence de type down-conversion. Ce processus utilisant des transferts d’énergie entre ions de terre rare (TR) ou métal de transition 3d (paires TR3+/Yb3+ avec TR = Pr, Tm,… et Cr3+/Yb3+) requiert des matrices à basse énergie de phonon pour réduire les relaxations non radiatives.Jusqu’à présent, les matériaux étudiés sont principalement sous forme de poudre polycristalline, ce qui limite leur utilisation à cause de la diffusion, ou de monocristaux dont le coût de fabrication est élevé.Dans le cadre de cette thèse, les verres fluorés à base de fluorozirconate ZLAG (ZrF4-LaF3-AlF3-GaF3) et ZBLA (ZrF4-BaF2-LaF3-AlF3) ont été préparés par la technique de fusion-coulée. Ces derniers sont adaptés du fait de leurs propriétés intrinsèques de transparence et de leur faible énergie de phonon. Les matériaux obtenus ont ensuite été caractérisés par, analyse thermique, diffraction des rayons X, microscopie électronique à transmission et luminescence.Des études par dynamique moléculaire et fluorescence par affinement de raies ont été effectuées sur la matrice ZLAG afin de suivre les modifications structurales lors du passage du verre à la vitrocéramique.La luminescence de l’ion Yb3+ a été observée dans l’infra-rouge à 980 nm sous excitation bleue dans toutes les séries étudiées, signature d’un transfert d’énergie. ans le verre ZLAG, l’efficacité atteint 92% pour le transfert d’énergie Pr3+ → Yb3+ et 65% pour le transfert d’énergie Tm3+ → Yb3+. L’efficacité est plus faible dans le verre ZBLA et la vitrocéramisation du verre ZLAG n’améliore pas les performances. / The efficiency of solar cells can be improved by fully exploiting the UV-blue portion of the solar spectrum, through a frequency converting mechanism of type downconversion. This process using energy transfer between rare earth ions (RE) or 3d transition metal (pairs RE3+/Yb3+ with TR = Pr, Tm,… and Cr3+/Yb3+) requires a matrix with low phonon energy to reduce non radiative relaxation.So far, the studied materials are mainly in the form of polycristalline powder, which limits their use due to diffusion or single crystals which manufacturing cost is high.As part of this thesis, fluoride glasses based on fluorozirconate ZLAG (ZrF4-LaF3-AlF3-GaF3) and ZBLA (ZrF4-LaF2-LaF3-AlF3) have been prepared by the melting-casting technique. These are suitable because of their intrinsic properties of transparency and low phonon energy. The resulting materials were then characterized by thermal analysis, X-ray diffraction, transmission electron microscopy and luminescence.Molecular Dynamics simulation and Fluorescence line narrowing of ZLAG matrix have been performed in order to investigate the structural modification during the transformation of the glass into the glass-ceramic.Luminescence of Yb3+ ion was observed in the near IR at 980 nm under blue excitation in all studied series, which is the signature of energy transfer. In the ZLAG glass, the efficiency reaches 92% for Pr3+ → Yb3+ energy transfer and 65% for Tm3+ → Yb3+ energy transfer. The efficiency is lower in the ZBLA glass and the ZLAG ceramisation does not improve the performances.

Verre fluoré

Vitrocéramique

Terre-rare

Chrome III

Luminescence

Down-conversion

Fluorescence par affinement de raie

Dynamique moléculaire

Fluoride glass

Glass-ceramic

Rare-earth

Chromium III

Fluorescence Line Narrowing

Molecular dynamics

666.15

Modelling Of Current-Zero Behaviour Of An SF6 Rotating Arc

Ravishankar, B R

04 1900

No description available.

Electric Circuits - Breakers

Sulphur Fluoride - Electric Arc

High Voltages

Arc

Circuit Breakers

SF6

Rate Of Rise Of Recovery Voltage (RRRV)

Rotating Arc Breakers

Sulphurhaxafluoride

Vacuum Arc

Vacuum Circuit Breaker (VCB)

High Voltage Circuit Breaker (HVCB)

Electrical Engineering

Investigations Into The Structural And Dielectric Properties Of Nanocrystallites Of CaCu3Ti4O12 And The Composites Based On Polymers And Glasses

Thomas, P

05 1900

Ceramics and polymer-ceramic composites associated with high dielectric constants are of both scientific and industrial interest as these could be used in devices such as capacitors, resonators and filters. High dielectric constant facilitates smaller capacitive components, thus offering the opportunity to miniaturize the electronic devices. Hence there is a continued interest on high dielectric constant materials over a wide range of temperatures. Recently, CaCu3Ti4O12 (CCTO) ceramic which has centro-symmetric body centered cubic structure has attracted considerable attention due to its large dielectric constant (ε ~104-105) which is nearly independent of frequency (upto 10 MHz) and low thermal coefficient of permittivity (TCK) over 100-600K temperature range. Apart from the high dielectric ceramics, high dielectric polymer-ceramic composites have also become promising materials for capacitor applications. By combining the advantages of high dielectric ceramics and low leakage behaviour of polymers, one can fabricate new hybrid materials with high dielectric constants, and high breakdown field to achieve high volume efficiency and energy storage density for capacitor applications. The CCTO polycrystalline powders were generally prepared by the conventional solid-solid reaction route with CaCO3, TiO2 and CuO as the starting materials. This method of preparation often requires high temperatures and longer durations. To overcome these difficulties, in the present investigations, an attempt has been made to synthesize CCTO by adopting microwave assisted heating technique and wet chemical synthesis routes. Also the CCTO crystallites (size varying from nano to micrometers) incorporated in the Polyvinyliden fluoride (PVDF) and Polyaniline (PANI) matrix and several composites with high dielectric constants were fabricated and investigated. Further, the high dielectric constant glasses in the system (100-x)TeO2-xCaCu3Ti4O12, (x=0.5 to 3) were fabricated by the conventional melt-quenching technique and their structural and dielectric properties were studied. The results obtained pertaining to these aforementioned investigations are classified as follows. Chapter 1 is intended to give basic information pertaining to the dielectrics and various mechanisms associated with high dielectric constants. Brief exposure to the high dielectric constant materials is also given. The structural aspects of CCTO, various synthetic routes adopted for the synthesis and the origin of the dielectric anomaly in CCTO are elaborated. In addition, basic information about the high dielectric polymer-ceramic composites and glasses are provided. In chapter 2 the various experimental techniques that were employed to synthesize and characterize the materials under investigation were discussed. Chapter 3 reports the synthesis and characterization of CaCu3Ti4O12, (CCTO) powders by microwave assisted heating at 2.45 GHz, 1.1kW. The processing and sintering were carried out at different temperatures for varied durations. The optimum calcination temperature using microwave heating was found to be 950oC for 20 minutes to obtain cubic CCTO powders. This is found to be fast and energy efficient as compared to that of the conventional methods. The structure, morphology and dielectric properties of the CCTO ceramic processed by microwave assisted heating were studied via X-ray diffraction, Scanning electron microscopy (SEM) and impedance analyser. These studies revealed that, the microwave sintered (MS) samples were less porous than that of the conventional ones. Relative density of about 95% was achieved for the MS pellets (1000oC/60min) while for the conventional sintered (CS) pellets (1100oC/2h) it was only 91%. The dielectric constants for the microwave sintered (1000oC/60min) ceramics were found to vary from 11000 to 6950 in the 100 Hz to 100 kHz frequency range. The presence of larger grains (6-10μm) in the MS samples contributed to the higher dielectric constants. Chapter 4 deals with the synthesis of complex oxalate precursor, CaCu3(TiO)4(C2O4)8 • 9H2O, by the wet chemical route. The various trials and the different reaction schemes involved for the preparation of complex oxalate precursor were highlighted. The oxalate precipitate thus obtained was characterized by the wet chemical analyses, X-ray diffraction, FTIR absorption and TG/DTA analyses. The complex oxalate precursor, CaCu3(TiO)4(C2O4 )8.9H2O was subjected to thermal oxidative decomposition and the products of thermal decomposition were investigated employing XRD,TGA, DTA and FTIR techniques. Nanocrystallites of CaCu3Ti4O12 with the size varying from 30-200 nm were obtained at a temperature as low as 680oC. The nanocrystallites of CaCu3Ti4O12 were characterized using Electron Spin Resonance (ESR) and optical reflectance techniques. The selected area electron diffraction (SAED) pattern with the zone axis [012] and spot pattern in electron diffraction (ED) indicate their single-crystalline nature. The optical reflectance and ESR spectra indicate that the Cu (II) coordination changes from distorted octahedra to nearly flattened tetrahedra (squashed) to square planar geometry with increasing heat treatment temperature. The powders derived from the oxalate precursor have excellent sinterability resulting in high density ceramics which exhibited giant dielectric constants upto 40,000 (1 kHz) at 25oC, accompanied by low dielectric loss < 0.07. The effect of calcium content on the dielectric properties of CaxCu3Ti4O12 (x=0.90, 0.97, 1.0, 1.1 and 1.15) derived from the oxalate route was described in Chapter 5. The structural, morphological and dielectric properties of the ceramics were studied using X-ray diffraction, Scanning Electron Microscope along with Energy Dispersive X-ray Analysis (EDX), and Impedance analyzer. The X-ray diffraction patterns obtained for the x= 0.97, 1.0 and 1.1 ceramics could be indexed to a body– centered cubic perovskite related structure associated with the space group Im3. The microstructural studies revealed that the grains are surrounded by exfoliated sheets of Cu-rich phase. The microstructure that is evolved for the Ca0.97 ceramic more or less resembles that of the Ca1.0 ceramic, but the density of such exfoliated sheets of cu-rich phase is lesser for the Ca0.97 ceramic and none for Ca1.1 ceramic. The sintered pellet (x=0.97) was ground and thinned to the required thickness (~ 20nm) and analyzed using Transmission Electron Microscopy (TEM). The current-voltage (I-V) characteristics of the ceramics exhibited non-linear behaviour. The dielectric properties of these suggest that the sample corresponding to the composition x=0.97, has a reduced dielectric loss while retaining its high dielectric constant. Chapter 6 illustrates the results concerning the fabrication and characterization of nanocrystal composites of Polyaniline (PANI) and CaCu3Ti4O12 (CCTO). These were prepared using a simple procedure involving in-situ polymerization of aniline in dil. HCl. The PANI and the PANI-CCTO composites were subjected to X-ray diffraction, Fourier Transform Infrared (FTIR), Thermo gravimetric, Scanning Electron Microscopic (SEM) and Transmission electron microscopic analyses. The FTIR spectra recorded for the composites was similar to that of pure PANI unlike in the case of X-ray diffraction wherein the characteristics of both PANI and CCTO were reflected. The TGA in essence indicated the composites to have better thermal stability than that of pure PANI. The composite corresponding to 50%CCTO-50%PANI exhibited higher dielectric constant (4.6x106 @100Hz). The presence of the nano crystallites of CCTO embedded in the nanofibers of PANI matrix was established by TEM. The AC conductivity increased slightly upto 2kHz as the CCTO content increased in the PANI which was attributed to the polarization of the charge carriers. The value of dielectric constant obtained was higher than that of the other PANI based composites reported in the literature. Chapter 7 deals with the fabrication and characterization of diphasic Poly(vinylidene fluoride) (PVDF)-CCTO composite. The CCTO crystallites (size varying from nano to micrometers) incorporated in the Polyvinylidene fluoride (PVDF) and composites with varying CCTO content were fabricated. The structural, morphological and dielectric properties of the composites were studied using X-ray diffraction, Thermal analysis, Scanning Electron Microscope (SEM), Transmission Electron Microscopic (TEM) and Impedance analyzer. The room temperature dielectric constant as high as 95 at 100Hz has been realized for the composite with 0.55 Vol.fraction of CCTO (micro sized crystallites), which has increased to about 190 at 150oC. Whereas, the PVDF/CCTO nanocrystal composite with 0.13Vol.fraction of CCTO has exhibited higher room temperature dielectric constant (90 at 100Hz). The PVDF/CCTO nanocrystal composite was further investigated for the breakdown strength and electric modulus. The breakdown strength plotted against the dielectric constant evidenced an inverse relationship of breakdown voltage with the dielectric constant. The relaxation processes associated with these composites were attributed to the interfacial polarization or Maxwell-Wagner-Sillars (MWS) effect. Various theoretical models were employed to rationalize the dielectric behavior of these composites. The fabrication and characterization details of optically clear colored glasses in the system (100-x)TeO2-xCaCu3Ti4O12, (x=0.5 to 3 mol%) are reported in Chapter 8. The color varies from olive green to brown as the CaCu3Ti4O12 (CCTO) content increased in TeO2 matrix. The X-ray powder diffraction and differential scanning calorimetric analyses that were carried out on the as-quenched samples confirmed their amorphous and glassy nature respectively. The optical transmittance of the glasses exhibited typical band-pass filter characteristics. The dielectric constant and loss in the 100 Hz-1MHz frequency range were monitored as a function of temperature (323K673K). The dielectric constant and the loss increased as the CCTO content increased in TeO2 at all the frequencies and temperatures under study. Further, the dielectric constant and the loss were found to be frequency independent in the 323-473 K temperature range. The value obtained for the loss at 1MHz was 0.0019 which was typical of low loss materials, and exhibited near constant loss (NCL) contribution to the ac conductivity in the 100Hz-1MHz frequency range. The electrical relaxation was rationalized using the electrical modulus formalism. These glasses are found to be more stable (a feature which may be of considerable interest) as substrates for high frequency circuit elements in conventional semiconductor industries. Thesis ends with summary and conclusions, though each chapter is provided with conclusions and complete list of references.

Nanocrystallites - Dielectric Properties

CaCu3Ti4O12 Composites

Glass Composites - Dielectric Properties

High Dielectric Constant Glasses

Polymer-Ceramic Composites

Calcium Copper Titanate

Materials Science

Large Area Electronics with Fluids : Field Effect on 2-D Fluid Ribbons for Desalination And Energy Harvesting

Kodali, Prakash

January 2016

This work studies the influence of field effect on large area 2 dimensional ribbons of fluids. A fluid of choice is confined in the channel of a metal-insulator-channel-insulator-metal architecture and is subjected to constant (d.c) or alternating (a.c) fields (de-pending on the application) along with a pressure drive flow. A general fluid would be composed of molecules having certain polarizability and be a dispersion of non-ionic and ionic particulates. The field effect response under pressure driven flow for this fluid would result in electrophoresis, electro osmosis, dielectrophoresis, dipole-dipole interaction and inverse electro osmosis phenomena. Using some of these phenomena we study applications related to desalination and energy harvesting with saline water as the ex-ample fluid for the former case, and solution processed poly vinyldene fluoride (PVDF) for the latter case. The geometrical features of \large area" and the \ribbon shape" can be taken advantage of to influence the design and performance for both applications. With regards to desalination, it is shown via experiments and theoretical models that the presence of alternating electric fields aid in ion separation along the flow when the saline water is subjected to laminar flow. Moreover, the power consumption is low due to the presence of the insulator. An average of 30% ion removal efficiency and 15% throughput is observed in the systems fabricated. Both performance parameters are discussion can be improved upon with larger channel lengths. The \2-D ribbon" and alternating field effect aid in achieving this by patterning the randomly distributed ions in the bulk into a smooth sheet charge and then repelling this sheet charge back into the bulk. The electric field exhibited by this sheet charge helps trap more ion sheets near the interface, thereby converting a surface ion trapping phenomena (when d.c is used) to a bulk phenomena and thereby improving efficiency. With regards to energy harvesting, a solution of PVDF in methyl ethyl ketone and 1-methyl-2-pyrollidone is confined to the \2-D ribbon" geometry and subject to high d.c fields. This aids in combining the fabrication, patterning and poling process for PVDF into one setup. Since the shape of the ribbon is defined by the shape of the channel, the ribbons (straight or serrated) can be used to sense forces of various magnitudes. More importantly experiments and theoretical models are studied for energy harvesting. Since the ribbon geometry defines the resonant frequency, large PVDF ribbon can be used to harvest energy from low frequency vibrations. Experiments show that up to 60 microwatt power can be harvested at 200 Hz and is sufficient to supplement the power for ICs.

Large Area Electronics

Desalination

Fluid Ribbons

Energy Harvesting

Electrohydrodynamics

Electro Fluid Dynamics

Polymer Piezoelectrics

Water Desalination

2-D Fluid Ribbon Geometry

Electric Fields

Piezoelectric Ribbons

Piezoelectric Energy Harvesters

Poly Vinyldene Fluoride (PVDF)

Applied Physics

Exploration of 1,9-Pyrazoloanthrones as a Copious Reserve for Multifarious Chemical and Biological Applications

Prasad, Karothu Durga

January 2014

Pyrazoloanthrone and its analogues form the central core of the thesis and the work is focused on the evaluation of chemical and biological applications of pyrazoloanthrones. Selective and sensitive detection of biologically, environmentally and industrially important molecular species such as fluoride, cyanide and picric acid by using pyrazoloanthrones as sensors form the first part while the second part deals with selective and specific kinase inhibition by pyrazoloanthrones to moderate inflammation associated disorders like septic shock. All the investigations are based on extensive crystallographic studies of the participating molecules. Chapter 1 provides a brief review on the history and biological importance of 1,9-pyrazoloanthrones. The potential of these molecules as probes in sensor chemistry and protein kinase inhibition is envisaged. A short account of the techniques employed for the investigations along with a preamble is presented. Chapter 2 is divided into two parts. Part A deals with the design of a colorimetric and “turn-on” fluorescent chemosensor based on 1,9-pyrazoloanthrone specifically for cyanide and fluoride ion detection. A remarkable solid state reaction indicated by the development of intense red color occurs when crystals of tetrabutylammonium cyanide/fluoride are brought in physical contact with 1,9¬pyrazoloanthrone resulting in corresponding molecular complexes (Figure 1). X-ray crystal structures of these complexes and also of 1,9-pyrazoloanthrone have been determined and the ion sensing activity has been substantiated on the basis of spectroscopic (absorption, fluorescence and NMR) and structural analyses. The crystal structure of the parent compound exhibits a disorder as a consequence of tautomerism and the disorder gets carried on to the complexes as well with even the cyanide and the fluoride ions showing partial occupancy sites. The presence of the –NH group and associated intramolecular charge transfer upon complex formation is attributed to the extreme sensitivity of 1,9-pyrazoloanthrone for cyanide and fluoride (detection limits of 0.2 ppb and 2 ppb) ions respectively. Figure 1. Development of intense red color during the solid state reaction (shown on left) and the turn on fluorescence behavior (shown to the right) Part B demonstrates the utilization of electron rich N-alkyl substituted pyrazoloanthrones to design sensors for detecting explosive and electron deficient nitro aromatics such as picric acid (PA). The N-alkyl derivative of 1,9-pyrazoloanthrone has been synthesized, characterized by single crystal X-ray diffraction studies and evaluated as a potent sensor for picric acid. NMR and fluorescence lifetime measurements validate that the fluorescence quenching of sensor compound by PA (Figure 2) as due to the formation of excited state charge-transfer complex resulting in dynamic quenching. Figure 2. Fluorescence quenching measurements demonstrating the dynamic quenching in the charge transfer complex. Chapter 3 deals with the biological evaluation of 1,9-pyrazoloanthrone and its alkyl derivatives towards the inhibition of a decisive protein kinase called c-Jun N-terminal Kinase (JNK), an important member of MAP kinase family. JNK controls crucial cellular processes like apoptosis and cell proliferation and is implicated in disorders associated with inflammation such as septic shock, arthritis, inflammatory bowel disease, etc. Therapeutic inhibition of JNK activity by small molecules has proven to be advantageous in the treatment of diseases coupled with derailed inflammation. In this context, it is already established that 1,9-pyrazoloanthrone (SP600125) effectively and selectively inhibits JNK at concentrations beyond 10 M. A series of alkyl isomers of pyrazoloanthrone derivatives have been synthesized to evaluate the structural implications of inhibition and to elevate both selectivity and sensitivity at lower concentrations. The crystal structures of these isomers have been characterized and their utility as inhibitors has been tested for their in vitro inhibitory activity over c-Jun N-terminal kinase (JNK). The minimum inhibitory concentrations required by these molecules to inhibit JNK was found to be lesser as compared to 1,9-pyrazoloanthrone (<5 µM; Figure 3). Critically, it turns out that among the various inhibitors synthesized, the lead candidates SPP1 and SPB1 display specific inhibition of JNK among other LPS activated MAP kinases like ERK1/2 and p38. These results suggest that N-alkyl (propyl and butyl) bearing pyrazoloanthrone scaffolds provide promising therapeutic inhibitors for JNK in regulating inflammation associated disorders. Figure 3. Inhibition of JNK in macrophages by the SPP1 and SPB1 compared to the known SP600125. Inspired by the results reported in the previous chapter, Chapter 4 is devoted to the generation of a library of compounds based on SPP1 and SPB1 with a purpose to design inhibitors of JNK which perform at the lowest possible concentrations and the consequent evaluation of their potential on endotoxin induced septic shock. Severe sepsis or septic shock is one of the rising causes for mortality worldwide representing nearly 10% of intensive care unit admissions. Susceptibility to sepsis is identified to be mediated by innate pattern recognition receptors and responsive signaling pathways of the host. The c-Jun N-terminal Kinase (JNK)-mediated signaling events play critical role in bacterial infection triggered multi-organ failure, cardiac dysfunction and mortality. Figure 4. Two selected molecules for specific inhibition studies of JNK at lower concentrations. It is demonstrated that alkyl and halogen substitution on the periphery of anthrapyrazolone increases the binding potency of the inhibitors specifically towards JNK. Based on the results from both in vitro with macrophages and in vivo with the mouse model of septicemia, the potential role of two selected molecules D1 and D2 (Figure 4) in regulating endotoxin induced inflammation is firmly established. Further, it is demonstrated that hydrophobic and hydrophilic interactions generated by these small molecules effectively block endotoxin-induced inflammatory genes expression in in vitro and septic shock in vivo, in a mouse model, with remarkable efficacies. Altogether, the in vitro as well as the in vivo data clearly potentiates the selective inhibitory capacity of small molecule inhibitors like D1 and D2 which can facilitate the treatment of current inflammatory disorders when used in combination with the available drugs having varied efficacies. The results rationalize the significance of the diversity oriented synthesis of small molecules for selective inhibition of JNK and their potential in the treatment of severe sepsis.

Pyrazoloanthrones

Pyrazoloanthrone

Anthrapyrazolones

C-Jun N-Terminal Kinase (JNK)

Protein Kinase Inhibition

Cyanide/Fluoride Ion Detection

Picric Acid

Fluoremetric Chemosensor

Septic Shock

JNK Signals

1, 9-pyrazoloanthrone

Organic Chemistry

Diode-Pumped High-Energy Laser Amplifiers for Ultrashort Laser Pulses: The PENELOPE Laser System

Löser, Markus

22 January 2018

The ultrashort chirped pulse amplification (CPA) laser technology opens the path to high intensities of 10^21 W/cm² and above in the laser focus. Such intensities allow laser-matter interaction in the relativistic intensity regime. Direct diode-pumped ultrashort solid-state lasers combine high-energy, high-power and efficient amplification together, which are the main advantages compared to flashlamp-pumped high-energy laser systems based on titanium-doped sapphire. Development within recent years in the field of laser diodes makes them more and more attractive in terms of total costs, compactness and lifetime. This work is dedicated to the Petawatt, ENergy-Efficient Laser for Optical Plasma Experiments (PENELOPE) project, a fully and directly diode-pumped laser system under development at the Helmholtz–Zentrum Dresden – Rossendorf (HZDR), aiming at 150 fs long pulses with energies of up to 150 J at repetition rates of up to 1 Hz. The focus of this thesis lies on the spectral and width manipulation of the front-end amplifiers, trivalent ytterbium-doped calcium fluoride (Yb3+:CaF2) as gain material as well as the pump source for the final two main amplifiers of the PENELOPE laser system. Here, all crucial design parameters were investigated and a further successful scaling of the laser system to its target values was shown. Gain narrowing is the dominant process for spectral bandwidth reduction during the amplification at the high-gain front-end amplifiers. Active or passive spectral gain control filter can be used to counteract this effect. A pulse duration of 121 fs was achieved by using a passive spectral attenuation inside a regenerative amplifier, which corresponds to an improvement by a factor of almost 2 compared to the start of this work. A proof-of-concept experiment showed the capability of the pre-shaping approach. A spectral bandwidth of 20nm was transferred through the first multipass amplifier at a total gain of 300. Finally, the predicted output spectrum calculated by a numerical model of the final amplifier stages was in a good agreement with the experimental results. The spectroscopic properties of Yb3+:CaF2 matches the constraints for ultrashort laser pulse amplification and direct diode pumping. Pumping close to the zero phonon line at 976nm is preferable compared to 940nm as the pump intensity saturation is significantly lower. A broad gain cross section of up to 50nm is achievable for typical inversion levels. Furthermore, moderate cryogenic temperatures (above 200K) can be used to improve the amplification performance of Yb3+:CaF2. The optical quality of the doped crystals currently available on the market is sufficient to build amplifiers in the hundred joule range. The designed pump source for the last two amplifiers is based on two side pumping in a double pass configuration. However, this concept requires the necessity of brightness conservation for the installed laser diodes. Therefore, a fully relay imaging setup (4f optical system) along the optical path from the stacks to the gain material including the global beam homogenization was developed in a novel approach. Beside these major parts the amplifier architecture and relay imaging telescopes as well as temporal intensity contrast (TIC) was investigated. An all reflective concept for the relay imaging amplifiers and telescopes was selected, which results in several advantages especially an achromatic behavior and low B-Integral. The TIC of the front-end was improved, as the pre- and postpulses due to the plane-parallel active-mirror was eliminated by wedging the gain medium.

info:eu-repo/classification/ddc/530

ddc:530