The conductor as part of a creative process : Case: Students composing for a student orchestra

Luomala, Markus

January 2016

No description available.

orchestral conducting

creativity

student orchestra

composing

orkesterdirigering

kreativitet

orkester

komposition

Synthesis of metal-containing thiophene-based conjugated polymers for photovoltaic applications

Koo, Yiu., 顧耀.

January 2009

published_or_final_version / Chemistry / Master / Master of Philosophy

Polythiophenes.

Polymeric composites.

Conjugated polymers.

Conducting polymers.

Photovoltaic power systems.

Rhythmic and metrical groupings of chant notation as an influence upon the conducting for the "Quatre motets sur des themes gregoriens", Op. 10, of Maurice Durufle.

Caldwell, Rodney Hildred.

January 1995

This project focuses on the relationship between plainchant notation and the conducting gesture in the Quatre Motets Sur Des Themes Gregoriens, Op. 10 of Maurice Durufle. Durufle's intimate knowledge of the chant practices of the Solesmes school of chant interpretation is a major influence in the compositional style of the four motets. This project explores the relevance of the Solesmes interpretational practices and their influence on Durufle's compositional technique. The conducting gesture employed in the realization of the motets must demonstrate an active knowledge of the compositional techniques employed and the Solesmes interpretational practices. As such the incorporation of traditional Gregorian Chironomy into a working gesture for use in the rehearsal and performance of the motets is the essence of this project.

Choral conducting.

Musical meter and rhythm.

Music.

Expressive conducting gestures : Reflections on the function of the left hand

Olsen, Espen Myklebust

January 2017

This thesis will explore the function of the conductor’s left hand, with emphasis on its expressive possibilities and the gestures. In the first chapter, the role of the conductor is discussed, and some problems around the field of expressive gestures are brought up. In the second chapter, I present the history of conducting, or rather the history of musical leadership, as the practice of conducting we are familiar with today began in the late 19th Century. In this chapter, I also include some paragraphs about gesture and its role and function outside of musical leadership, such as public speaking. In chapter three, I examine a selection of instruction books and how they treat the use of the left hand. During the work on this material I found several quotations and thoughts from conductors, in letters and interviews, presented in chapter four. This is interesting for this study, because it offers the personal opinions and experiences of well-established conductors and conducting teachers. It also shows how the opinions on the use of the left hand have changed over the past century. Chapter five is a lengthy chapter of research on this topic. Not all is directly connected to the left hand, but all is in connection to gesture in some way. These chapters form the basis of a discussion, where findings in previous chapters are pointed out and debated, and the authors personal opinion is presented. At the end follows suggestions on how this topic can be further researched and how one can create a repertoire of expressive gestures.

conductor

conducting

left-hand

expressive gestures

Music

Musik

Integrating Copper Nanowire Electrodes for Low Temperature Perovskite Photovoltaic Cells

Mankowski, Trent, Mankowski, Trent

January 2017

Recent advances in third generation photovoltaics, particularly the rapid increase in perovskite power conversion efficiencies, may provide a cheap alternative to silicon solar cells in the near future. A key component to these devices is the transparent front electrode, and in the case of Dye Sensitized Solar Cells, it is the most expensive part. A lightweight, cost-effective, robust, and easy-to-fabricate new generation TCE is required to enable competition with silicon. Indium Tin Oxide, commonly used in touchscreen devices, Organic Light Emitting Diodes (OLEDs), and thin film photovoltaics, is widely used and commonly referred to as the industry standard. As the global supply of indium decreases and the demand for this TCE increases, a similar alternative TCE is required to accompany the next generation solar cells that promise energy with lighter and significantly cheaper modules. This alternative TCE needs to provide similar sheet resistance and optical transmittance to ITO, while also being mechanically and chemically robust. The work in this thesis begins with an exploration of several synthesized ITO replacement materials, such as copper nanowires, conductive polymer PEDOT:PSS, zinc oxide thin films, reduced graphene oxide and combinations of the above. A guiding philosophy to this work was prioritizing cheap, easy deposition methods and overall scalability. Shortcomings of these TCEs were investigated and different materials were hybridized to take advantage of each layers strengths for development of an ideal ITO replacement. For CuNW-based composite electrodes, ~85% optical transmittance and ~25 Ω/sq were observed and characterized to understand the underlying mechanisms for optimization. The second half of this work is an examination of many different perovskite synthesis methods first to achieve highest performance, and then to integrate compatible methods with our CuNW TCEs. Several literature methods investigated were irreproducible, and those that were successful posed difficulties integrating with CuNW-based TCEs. Those shortcomings are discussed, and how future work might skirt the issues revealed here to produce a very low cost, high performance perovskite solar cell.

Copper Nanowires

Perovskite

Solar Cells

Transparent Conducting Electrodes

Thermoelectric properties of conducting polymers

Bubnova, Olga

January 2013

According to different sources, from forty to sixty percent of the overall energy generated in the world today is squandered in waste heat. The existing energy conversion technologies are either close to their efficiency limits or too costly to justify their implementation. Therefore, the development of new technological approaches for waste heat recovery is highly demanded. The field of thermoelectrics can potentially provide an inexpensive, clean and efficient solution to waste heat underutilization, given that a new type of thermoelectric materials capable of meeting those requirements are available. This thesis reports on strategies to optimize a thermoelectric efficiency (ZT) of conducting polymers, more specifically poly(3,4-ethylenedioxythiophene) (Pedot). Conducting polymers constitute a special class of semiconductors characterized by low thermal conductivity as well as electrical conductivity and thermopower that can be readily modified by doping in order to achieve the best combination of thermoelectric parameters. Conducting polymers that have never previously been regarded as hypothetically compatible for thermoelectric energy conversion, can exhibit promising thermoelectric performance at moderate temperatures, which is a sought-after quality for waste heat recovery. A rather substandard thermoelectric efficiency of Pedot-Pss can be markedly improved by various secondary dopants whose addition usually improves polymer’s morphology accompanied by a drastic increase in electrical conductivity and, consequently, in ZT. In order to enable further enhancement in thermoelectric properties, the optimization of the charge carrier concentration is commonly used. The oxidation level of Pedot-Pss can be precisely controlled by electrochemical doping resulting in a tenfold increase of ZT. In contrast to Pedot-Pss, another conducting polymer Pedot-Tos exhibits superior thermoelectric performance even without secondary doping owning to its partially crystalline nature that allows for an improved electronic conduction. With the aid of a strong electron donor, positively doped Pedot-Tos gets partially reduced reaching the optimum oxidation state at which its thermoelectric efficiency is just four times smaller than that of Be2Te3 and the highest among all stable conducting polymers. The downsides associated with chemical doping of Pedot-Tos such as doping inhomogeneity or chemical dopants air sensitivity can be surmounted if the doping level of Pedot-Tos is controlled by acidity/basicity of the polymer. This approach yields similar maximum thermoelectric efficiency but does not necessitate inert conditions for sample preparation. Optimized Pedot-Tos/Pedot-Pss can be functionalized as a p-type material in organic thermogenerators (OTEG) to power low energy electronic devices. If printed on large areas, OTEGs could be used as an alternative technique for capturing heat discarded by industrial processes, households, transportation sector or any natural heat sources for electricity production.

Thermoelectric generation

Seebeck coefficient

conducting polymers

thermoelectric efficiency.

Chemoelectromechanical Actuation in Conducting Polymer Hybrid with Bilayer Lipid Membrane

Zhang, Hao

29 April 2013

Biological and bio-inspired systems using ion transport across a membrane for energy conversion has inspired recent developments in smart materials. The active mechanism in bioderived materials is ion transport across an impermeable membrane that converts electrochemical gradients into electrical and mechanical work. In addition to bioderived materials, ion transport phenomenon in electroactive polymers such as ionomeric and conducting polymers produces electromechanical coupling in these materials. Inspired by the similarity in transduction mechanism, this thesis focuses on integrating the ion transport processes in a bioderived material and a conducting polymer for developing novel actuation systems. The integrated membrane has a bilayer lipid membrane (BLM) formed on a conducting polymer, and the proteins reconstituted in the BLM regulate ion transport into the conducting polymer. The properties of the polymer layer in the integrated device are regulated through a control signal applied to the bioderived layer and hence the hybrid membrane resembles an ionic transistor. Due to the bioderived nature of this device, it is referred to as a ‘bioderived ionic transistor’. The research carried out in this thesis will demonstrate the fabrication, characterization and design limitations for fabricating a chemoelectromechanical actuator using the BIT membrane. The BIT membrane has been fabricated using BLM (DPhPC) reconstituted with protein (alamethicin) to gate Na$^+$ transport into conducting polymer membrane (PPy(DBS)). In this membrane, the bioderived layer is fabricated with proteins by vesicle fusion method and conducting polymer is fabricated by electropolymerization. The bioderived layers, the conducting polymer layers and the hybrid membrane are characterized using electrochemical measurements such as cyclic voltammetry, chronoamperometry, and electrochemical impedance spectroscopy. The fabrication, characterization and design effort presented in this thesis focuses on the integration of ion transport through the bioderived membrane into volumetric expansion and bending actuation. The characterization efforts are supported by empirical and physics-based models to represent the input-output relationship for both PPy(DBS) actuator and bioderived membrane, and design rules for the proposed actuation platforms are specified. The electropolymerized PPy(DBS) actuator is anticipated to be used in a bicameral device with the chambers kept separated by the DPhPC-alamethicin bioderived membrane. The relationship between the gradient potential, ionic current through the gate, ion concentration, ion transport coefficient in the conducting polymer layer, and the induced tip displacement in the polymer has been concluded from experiments and fitted to the actuation system model. This thesis will also address future directions for this research and anticipated applications for this hybrid actuation concept, such as artificial muscle, drug delivery.

conducting polymer

BLM

ion channel

ion transport

Engineering

Development of transparent conducting oxides for photovoltaic applications

Isherwood, Patrick J. M.

January 2015

Metal oxides are a very important class of materials with a wide range of photovoltaic applications. Transparent conducting oxides (TCOs) are the primary front contact materials used in thin film solar cells. Identification of methods for reducing the resistivity of these materials would have significant benefits. Development of p-type TCOs would provide alternative back contact materials and could enable further development of technologies such as bifacial, window and multijunction cells. A series of studies into these areas is presented in this work. Aluminium doped zinc oxide (AZO) is a well-known n-type TCO consisting entirely of Earth-abundant materials. Targets were manufactured from AZO powder, which was synthesised using a patented emulsion detonation process developed by Innovnano S.A. All films showed good optical transmission. Resistivity was found to decrease with both increasing time and temperature up to 300 degree C. Temperatures above 300 degree C were found to be detrimental to film formation, with increasing amounts of damage to the crystal structure and consequent increases in the resistivity. The effect of alloying molybdenum oxide with molybdenum nitride through reactive sputtering in a mixed oxygen-nitrogen atmosphere was investigated. All alloys were found to show p-type behaviour. Resistivity was found to improve with increased nitrogen content, in contrast to optical transmission, which reduced. A selection of compositions were deposited onto CdTe cells as back contacts. These cells showed an increase in efficiency with increasing nitrogen content. Work function was found to increase with increasing oxygen content, but all work functions were low. Resistivity was shown to correlate strongly with efficiency, caused by a corresponding increase in cell voltage. This implies that to form an ohmic contact on CdTe with p-type materials, work function may be less important than resistivity. The copper oxides are p-type, but uses are limited by the narrow band gaps. Cupric oxide was chosen for investigation and for alloying with other oxides with the aim of increasing the band gap. It was found that temperature and deposition environment have significant impacts on sputtered cupric oxide (CuO) films, with low temperatures and high oxygen environments producing the lowest resistivities. Extrinsic sodium doping was found to reduce the resistivity by up to four orders of magnitude. High oxygen content sodium-doped films were found to have carrier concentrations two orders of magnitude higher than that of indium tin oxide.

661

Preparação e caracterização de polímeros conjugados com propriedades crômicas / Preparation and characterization of conjugated polymer with chromic properties

Gonçalves, Vanessa Cristina

06 March 2006

Derivados do politiofeno são promissores para obtenção de sensores ópticos devido as suas propriedades crômicas, enquanto que polímeros azosubstituídos (azopolímeros) têm sido estudados para várias aplicações, tal como memórias ópticas. Neste trabalho procurou-se unir as propriedades dos derivados politiofênicos as dos azopolímeros através da preparação de um polímero tiofênico azosubstituído, obtido pela funcionalização do monômero tiofênico com um grupo azobenzênico. Para fins de comparação, foram também sintetizados um derivado polialquiltiofeno, o poli(3-octiltiofeno), e um copolímero formado a partir da união dos monômeros 3- octiltiofeno e do tiofeno azosubstituído. A obtenção do monômero azosubstituído foi feita a partir de uma reação de esterificação entre o ácido 3-tiofeno acético e o corante comercial vermelho disperso 1 (disperse red 1, DR1), ao passo que o monômero alquilado foi adquirido comercialmente. Os polímeros foram sintetizados por polimerização oxidativa com cloreto fénico e caracterizados químicoestruturalmente pelas técnicas de FTIR, 1H RMN, análise elementar, HPSEC e análise térmica (TG e DSC). Dessas análises comprovou-se a formação dos homopolímeros, mas não foi possível confirmar a formação do copolímero e ainda para esse caso, obteve-se uma menor quantidade de unidades azosubstituídas do que a pretendida. A análise da fotoluminescência destes materiais mostrou a influência do tipo de cadeia lateral na intensidade e no formato do espectro de emissão desses polímeros. A espectroscopia de UV-Vis foi utilizada para o estudo de suas propriedades crômicas, sendo observada a presença de termo- e solvatocromismo. O termocromismo foi analisado em solução e na forma de filmes e o solvatocromismo em soluções de solventes puros e em misturas de THF/ n-hexano com diferentes proporções. Esses polímeros também apresentaram alterações em seus espectros de absorção como resposta à variação do pH da solução. A birrefringência fotoinduzida, técnica de estudo visando a aplicação dos polímeros em memórias ópticas, somente foi observada para o homopolímero azosubstituído. Os resultados obtidos neste trabalho indicam que o politiofeno azosubstituído é um candidato promissor para elemento ativo em uma série de aplicações, tais como sensores de diversos tipos e em dispositivos de marcação oculta / Polythiophene derivatives are promising for optical sensors due to their chromic properties while azofunctionalized polymers have been used in several applications such as optical memories. In this work, an azosubstituted polythiophene was prepared by the functionalization of the thiophenic monomer with an azobenzene moiety in order to combine the polythiophene properties with those from the azopolymers. For the sake of comparison, a polyalkylthiophene, the poly(3- octylthiophene), and a copolymer of 3-octylthiophene and the azothiophene were synthesized. The azosubstituted monomer was synthesized by the esterification reaction of 3-thiopheneacetic acid and the commercial dye Disperse Red 1 (DRI), whilc the alkyl thiophene monomer was purchased. The polymers were prepared by oxidative polymerization reactions with ferric chloride and characterized chemically and structurally using FTIR, 1H NMR, elemental analysis and thermal analysis (TG and DSC) techniques. From these analyses, the formation of homopolymers was confirmed, but it was not possible to confirm the formation of the copolymer. In the latter, the amount of azosubstituted units was smaller than expected. The analysis of the polymers photoluminescence showed the influence of the side chain in the intensity and shape of the emission spectra. UV-Vis spectroscopy was used to study the polymer chromic properties which showed thermo- and solvatochromism. Thermochromism was analyzed in solution and in thin solid films and the solvatochromism was studied in pure solvent solutions and mixtures of THF/hexane in different ratios. These polymers also had their absorption spectra affected by changing the concentration of a protonic acid (HCI) solution. Photoinduced birefringence, aiming at optical memories applications, was only observed for the azosubstituted homopolymer. The overall results indicate that the azosubstituted polythiophene is promising as active material for several applications, such as different types of sensors and security-labeling devices

Azobenzene

Azobenzeno

Chromism

Conducting polymers

Cromismo

Polímeros condutores

Politiofeno

Polythiophene

Preparação, caracterização e propriedades catalíticas de filmes de politiofeno contendo eletrocatalisadores dispersos. / Preparation, characterization and catalytic properties of polythiophene films containing dispersed electrocatalysts.

Giacomini, Márcia Toline

29 March 2001

Filmes de politiofeno foram eletroquimicamente depositados em diversos substratos eletródicos em meio aquoso fortemente ácido e as características dos materiais formados foram estudadas através de técnicas voltamétricas, espectroscópicas (FTIR e UV-Vis. e raios X) e por microscopia eletrônica de varredura. As propriedades foram comparadas com as de filmes sintetizados em meio não-aquoso concluindo-se que o material produzido em meio aquoso mostra-se mais adequado para a aplicação como suporte de partículas eletrocatalisadoras, por sua maior atividade eletroquímica, homogeneidade e estabilidade. Foram então incorporadas partículas de Pd e Pt que foram investigadas quanto a ação catalítica frente as reações de oxidação de hidrogênio (ROH) e redução de oxigênio (RRO) em ácido sulfúrico 2,0 M. Os materiais produzidos foram primeiramente caracterizados através de técnica de absorção de raios X, tendo sido observada a formação de aglomerados de partículas bastante pequenas que não alteram seu estado de oxidação com a mudança do potencial eletródico. Verificou-se que ambos os catalisadores apresentam uma certa atividade inicial frente a ROH, mas o desempenho não é estável devido à ocorrência de processos degradativos da cadeia polimérica. Por outro lado, observou-se que os filmes contendo Pt apresentam elevada atividade catalítica frente a RRO, substancialmente maior que a de filmes contendo Pd. O mecanismo da reação mostrou-se dependente da natureza do catalisador, sendo também influenciado pelo contato com o filme polimérico. Para a Pt em contato direto com o eletrólito, a reação ocorre com envolvimento de 4 elétrons e com formação de água como produto final. Para o caso em que as partículas de Pt são recobertas por politiofeno, verifica-se a participação do peróxido de hidrogênio como intermediário, sendo que somente uma certa fração do mesmo reduz-se para formar água. No caso do Pd, o processo leva à formação de peróxido de hidrogênio em baixos sobrepotenciais, que depois é reduzido, com formação de água, em sobrepotenciais mais elevados. / Polythiophene films were electrochemically grown on several electrode substrates from strong acid aqueous solutions, and the characteristics of the materials investigated using cyclic voltammetry, FTIR and UV-Vis spectroscopies, and scanning electron microscopy. Compared to the materials prepared in non-aqueous media, the polymer synthesized in aqueous media shows more adequate characteristics for using as support for electrocatalytic particles, because of its higher electrochemical activity and stability, and bulk homogeneity. Particles of Pd and Pt were electrochemically incorporated on these polymer films, and the electrocatalytic properties of such composites investigated with respect to the hydrogen oxidation (HOR) and oxygen reduction (ORR) reactions in 2.0 M sulfuric acid solutions. Previously to these kinetic studies, the composites were characterized using X-ray absorption spectroscopy from which it is seen that the catalysts are deposited as agglomerates composed of very small particles whose oxidation states are not changed by changing the electrode potential. Both catalysts present some initial activity for the HOR, but the performance is not stable due to the occurrence of a degradation process involving the polymer chain. On the other hand, it is observed that the films containing Pt show an enhanced catalytic activity for the ORR which is considerably higher than of that containing Pd. The reaction mechanism is dependent on the catalyst nature and also influenced by the contact with a polymer film coating. For Pt in direct contact with the supporting electrolyte, the reaction occurs involving 4 electrons leading to water as final product. For Pt particles covered with a polymer layer, participation of hydrogen peroxide seems to be important with only a fraction of this specie being reduced to water. In the case of Pd, the process involves formation of hydrogen peroxide at low overpotentials, which is then reduced to water at higher overpotentials.

conducting polymers

electrocatalysts

eletrocatalisadores dispersos

polímeros condutores

politiofeno

polythiophene