Conductive And Electrochromic Properties Of Poly(p-phenylene Vinylene)

Ozturk, Tugba

01 January 2005

P-xylene-bis(diethylsulphonium chloride) (PXBDC) monomer was synthesized by the reaction of &amp / #945 / ,&amp / #945 / -dichloro-p-xylene with tetrahydrothiophene or diethyl sulphide. Electrochemical behavior of this monomer (PXBDC) was examined by cyclic voltametry. Polymerization was achieved both by using electrochemical and chemical polymerization techniques. In the electrochemical technique, PPV was synthesized by constant potential electrolysis in acetonitrile-tetrabutylammonium tetrafluoroborate (TBAFB) solvent-electrolyte couple. The polymer obtained from the electrode surface was converted to the poly(p-phenylene vinylene) (PPV) by the thermal elimination reaction of diethyl sulphide and HCl. Also, PPV was doped via electrochemical doping with ClO4- dopant ion. The chemical structures were confirmed both by Nuclear Magnetic Resonance Spectroscopy (NMR) and Fourier Transform Infrared Spectroscopy (FTIR). The thermal behavior of chemically and electrochemically synthesized conducting polymers were investigated by Differential Scanning Calorimetry (DSC). Also, electrochromic and spectroelectrochemical properties of PPV was investigated by using UV-VIS spectrophotometer.

QD Polymers, Macromolecules 380-388

Síntese e caracterização de derivados do poli(fenileno-vinileno) com diferentes massas molares / Synthesis and characterization of poly(p-phenylene-vinylene) derivatives with different molar masses

Patrícia Bueno de Campos

26 September 2003

Os polímeros com propriedades luminescentes, e mais especificamente, os eletroluminescentes, tem atraído muita atenção devido a sua possível aplicação em dispositivos ópticos e eletrônicos do tipo LEDs (light-emitting diodes). Grande parte das pesquisas realizadas no campo da eletroluminescência se baseia em estudos sobre poli (arilenos-vinilenos), como o poli-(p-fenileno vinileno), PPV, e seus derivados. No processo de polimerização de tais polímeros, a influência de algumas variáveis são importantes em suas propriedades finais. Este trabalho descreve a exploração da influência de diversas variáveis no processo de polimerização do derivado do PPV, o poli-(2-metoxi-5-hexiloxi-p-fenileno-vinileno) MH-PPV. Além disso, com o intuito de verificar a influência da presença de aditivos na massa molar dos polímeros foram realizadas polimerizações utilizando-se os aditivos 4-metoxifenol, cloreto de tercbutila e cloreto de benzila durante o processo de polimerização. Também foram realizados estudos sobre o modo de adição e temperatura de polimerização utilizando o aditivo cloreto de benziIa. Todos os produtos foram caracterizados por HPSEC (Cromatografia de Exclusão por Tamanho) para determinação das massas molares dos polímeros. Observou-se que a temperatura e a velocidade de adição da base no meio reacional são variáveis que influenciam significativamente no processo de polimerização e, conseqüentemente, na distribuição na massa molar dos polímeros. Foi constatado que o uso de aditivos no processo de polimerização previne a formação de géis; fornece polímeros com baixa massa molar, aumentando a solubilidade dos polímeros em solventes orgânicos como clorofórmio e THF. A análise térmica dos polímeros revelou que além da Tg em tomo de 160oC, todos os polímeros apresentaram uma transição em tomo de 75oC. Os espectros de absorção e emissão não foram afetados de forma significativa dentro dos valores de massas molares médias obtidas. Foi possível também obter uma relação entre os valores de massa molar obtidos por HPSEC e valores de viscosidade relativa, que pode ser utilizada para estimar valores de Mw através de medidas de tempo de escoamento / Electroluminescent polymers have been widely investigated due to its potential applications in optoelectronic devices such as polymer light-emitting diodes (PLEDs). Most of the polymers suitable for application in PLEDs are related to the poly(arylenes-vinylene) polymers, including the poly(p-phenylene-vinylene) (PPV) and its derivatives, which are of special interest. Such materials can exhibit significant differences on their final properties upon changes on specific synthesis parameters. In this work it is described the influence of three different additives, viz. 4-methoxyphenol, terc-butyl chloride and benzyl chloride, on the polymerization process of the derivative poly(2-methoxy-5-hexyloxy-p-phenylenevinylene) MHPPV. Size Exclusion Chromatography analyses revealed that the type and rate of incorporation of the additives to the polymerization reaction largely affects the molecular weight of the polymers. In addition, it was observed that the use of additives leads to the synthesis of low molecular weight polymers, increasing their solubilities in common organic solvents, eg. chloroform and tetrahydrofuran. The glass transition temperature (Tg) of the polymers was determined by differential scanning calorimetry (DSC) to be ca. 160oC. Interestingly, all the polymers presented an additional transition point at ca. 75oC. Neither the electronic absorption nor the emission spectra were affected by the differences on the molecular weight of the polymers. Finally, it was possible to establish correlations between the molecular weight analyses (from HPSEC) and viscosity experiments, which can be useful for Mw determination

LEDs

Massa molar

Poli-(fenileno-vinileno)

PPV

Síntese

LED

Molar mass

Poly(p-phenylene-vinylene)

PPV

Synthesis

Vinylene-Linked Two-Dimensional Covalent Organic Frameworks: Synthesis and Functions

Xu, Shunqi, Richter, Marcus, Feng, Xinliang

14 April 2022

Two-dimensional covalent organic frameworks (2D COFs) with covalently bonded repeat units and crystalline, porous framework backbones have attracted immense attention since the first 2D COFs were reported by Yaghi’s group in 2005. The extended single-layer structures of 2D COFs are also generally considered to be the 2D polymers. The precise incorporation of molecular building blocks into ordered frameworks enables the synthesis of novel organic materials with designable and predictable properties for specific applications, such as in optoelectronics, energy storage, and conversion. In particular, the 2D π-conjugated COFs (2D-c-COFs) represent a unique class of 2D conjugated polymers that have 2D molecular-periodic structures with extended in-plane π-conjugations. In the 2D-c-COFs, the conjugated skeletons and π–π stacking interactions can provide the pathways for electron transport, while the porous channel can enable the loading of active sites for catalysis and sensing. Thus far, the synthesis of 2D-c-COFs has been mostly limited to Schiff base chemistry based on the condensation reaction between amine and aldehyde/ketone monomers because the construction of 2D COFs as thermodynamically controlled products generally requires a highly reversible reaction for error-correction processes. However, the high reversibility of imine linkages would conversely endow moderate π-electron delocalization due to the polarized carbon–nitrogen bonds and poor stability against strong acids/bases. To achieve robust and highly conjugated 2D-c-COFs, a series of synthesis strategies have been developed, including a one-step reversible reaction with a bond-forming–bond braking–bond reforming function, a quasi-reversible reaction combing reversible and irreversible processes, and postmodifications converting labile bonds to a robust linkage. Among all of the reported 2D-c-COFs, vinylene-linked (also sp2-carbon-linked) 2D covalent organic frameworks (V-2D-COFs) with high in-plane π-conjugation have attracted increasing interest after we reported the first V-2D-COFs via a Knoevenagel polycondensation in 2016. Although C═C bonds have low reversibility, making the synthesis of V-2D-COFs quite challenging, there have been around 40 V-2D-COFs reported over the past 5 years, which demonstrated the merits of V-2D-COFs combining with unique optoelectronic, redox, and magnetic properties. In this Account, we will summarize the development of V-2D-COFs, covering the important aspects of synthesis methods, design strategies, unique physical properties, and functions. First, the solvothermal synthesis of V-2D-COFs using different reaction methodologies and design principles will be presented, including Knoevenagel polycondensation, other aldol-type polycondensations, and Horner–Wadsworth–Emmons (HWE) polycondensation. Second, we will discuss the optoelectronic and magnetic properties of V-2D-COFs. Finally, the promising applications of V-2D-COF in the fields of sensing, photocatalysis, energy storage, and conversion will be demonstrated, which benefit from their robust vinylene-linked skeleton, full in-plane π-conjugation, and tailorable structures. We anticipate that this Account will provide an intensive understanding of the synthesis of V-2D-COFs and inspire the further development of this emerging class of conjugated organic crystalline materials with unique physicochemical properties and applications across different areas.

info:eu-repo/classification/ddc/540

ddc:540

Cyclopentadienone Conversions to Terephthalates and Cycloadditions of Alkynes and Azides

Bragg, Sarah E.

10 June 2011

No description available.

Chemistry

terephthalate

cyclopentadienone

acetylene

azide

Diels-Alder

Huisgen 1,3-dipolar cycloaddition

click

1,2,3-triazoles

poly(phenylene vinylene)

Synthesis and characterisation of block copolymers and cyclic polymers containing poly(p-phenylenevinylene)s

Lidster, Benjamin John

January 2015

Conjugated organic polymers have attracted immense interest for use in the active layer of photovoltaic cells, electroluminescent displays and diagnostic sensors. Precise control of the chemical structure of these conjugated materials is essential to achieve better device performance and certain structural aspects which have received minimal investigation include; the nature of the end groups, the precise control of the molecular weight and the formation of novel polymer topologies. Absolute control of these factors, in particular the end groups, has the potential to further tune the electro-optical properties, eliminate charge trapping and reactive sites, and facilitate block copolymer formation. The ring opening metathesis polymerisation of highly strained cyclophanediene monomers has proven to be an advantageous route to obtain soluble poly(p-phenylenevinylene)s (PPVs). In an extension of this previous work PPVs with both a pristine polymer backbone microstructure and a range of well-defined functional end groups have been prepared. These polymers exhibited excellent degrees of functionality, relatively narrow unimodal distributions and degrees of polymerisation much higher than those attainable by alternate routes. In particular the incorporation of an α-bromoester end group directly resulted in PPVs which were effective macroinitiators in the atom transfer radical polymerisation of methyl methacrylate. The diblock copolymers prepared by this route were isolated with narrow polydispersities, unimodal distributions and were free from homopolymer impurities. This method of preparing rod-b-coil diblock copolymers, where the properties of the two segments can readily be modified, provides access to materials which are of interest for both their self-assembly ability and for the development of a much required phase diagram in this area. Cyclic PPVs are of synthetic interest both for the absence of any end groups and for an infinitely long π-conjugated backbone, both of which are expected to contribute to unique electro-optical properties. The preparation of these target polymers was investigated by the ring expansion metathesis polymerisation of the cyclophanediene monomers. The formation of purely cyclic, low molecular weight PPVs was found to be highly dependent on both the reaction conditions used and the nature of the solubilising substituents. For example the preparation of purely cyclic PPVs with alkoxy side chains was unsuccessful, however the incorporation of alkyl side chains allowed for the successful isolation of the desired cyclic polymers.

668.9

"Efeitos de interface sobre as propriedades ópticas de polímeros conjugados" / Effect of Interface on the Optic Conjugated Polymer Properties

Borges, Célio Aécio Medeiros

28 June 2005

Esta tese de doutorado apresenta os resultados do estudo sistemático das propriedades ópticas das interfaces que aparecem em dispositivos orgânicos atuais emissores de luz ou OLEDs. Estamos interessados no entendimento do papel de cada uma das interfaces metal/polímero e ITO/polímero sobre a emissão da camada orgânica ativa emissora de luz. Para tanto, se fez necessário o domínio de todas as etapas de preparação e caracterização de filmes finos orgânicos, desde a síntese química dos polímeros até a preparação de amostras adequadas que permitissem a realização dos objetivos propostos. Ênfase foi dada aos processos de excitação e de relaxação energética dos portadores de carga (elétrons e buracos) em filmes ultrafinos automontados próximos às interfaces, correlacionando-os direta ou indiretamente com os efeitos de interface. Através do desenvolvimento e domínio de uma nova metodologia de preparação de filmes orgânicos, verificamos que a intensidade da luminescência de um filme de prova ultrafino de poli(p-fenileno vinileno) (PPV) com espessura em torno de 1,5 nm sofre grandes variações em uma extensa região próxima às interfaces metálicas de Au, Al e de ITO (óxido de índio-estanho). Esta camada de prova foi gradualmente separada da interface variando-se de forma controlada a espessura de um filme polimérico espaçador opticamente inerte. O perfil de intensidade da fotoluminescência nas proximidades das interfaces foi determinado em função da distância entre as superfícies estudadas (vidro, quartzo, metálica ou ITO) e a camada de prova emissora de PPV. Duas regiões relacionadas a processos radiativos distintos foram bem estabelecidas para as interfaces metálicas: uma região de extinção, nas proximidades da interface (< 20 nm), onde a luminescência é fortemente suprimida e uma outra de aumento da luminescência entre 20 e 90 nm. A grande variação da intensidade da luminescência observada neste trabalho é explicada considerando efeitos de interferência em uma semicavidade óptica, além dos processos de transferência de energia tipo Förster entre estados do PPV e estados de plásmons superficiais no metal. Verificamos que a distribuição espacial da radiação emitida é profundamente alterada por processos não radiativos de transferência de energia e pelas condições impostas pelas interfaces em uma semicavidade óptica. Modificações da superfície de ITO foram realizadas pelo tratamento acídico com água-régia suave. Nós observamos que a refletividade do ITO é fortemente dependente do tempo do tratamento e da espessura do espaçador. Como nos filmes metálicos, a emissão de um filme de prova de PPV sofre alterações nas proximidades da interface contendo ITO. Aqui, os parâmetros materiais (índice de difração, reflectância e comprimento de onda da emissão), a estrutura de superfície do ITO e os fatores geométricos mostram um papel importante. Cálculos da intensidade da emissão nas proximidades das interfaces descrevem de modo satisfatório os resultados experimentais. Do perfil de intensidade calculado próximo das interfaces, concluímos que a espessura e a posição da camada ativa emissora de luz devem ser otimizadas de modo a coincidir com a região de aumento ou amplificação da luminescência. / This PhD thesis is an extensive study of the optical properties of the interfaces of organic light-emitting devices (OLED’s). In particular, we investigated the influence of interfaces metal/polymer and ITO/polymer on the emission of an active layer in such devices. Therefore, it was necessary to dominate all the processes of fabrication and characterization of the multilayered structures used in the present investigation. We have used a very thin PPV probe layer (1.5 nm) to map the optical properties very near the metal/organic and the Indium-Tin Oxide (ITO)/organic interfaces. A new Spin-Layer-by-Layer method was employed which allowed a control of deposition of layers at the monolayer level. Precise variation of the metal/PPV or ITO/PPV separation over the entire substrate surface was achieved by the deposition of an organic inert spacer layer. The ITO surface modifications were carried out by soft acidic aquaregia treatment. A strong modulation of the probe layer emission was observed near the metal and ITO interfaces. These results are explained by calculations which include competing short range radiationless energy transfer and intensity modulation due effects produced by the optical cavity formed by metal/polymer films/air. At small distances (<20 nm) from interface, collective excitations in the metal act as energy acceptors, which open up an efficient nonradiative channel. Here, material parameters (diffraction index, reflectance and emission wavelength, for example), surface treatment and structure as well as geometrical factors may play an important role.

Conjugated Polymer

Efeito de Interface

Effect of interface

Fotoluminescência

Optic Properties

Photoluminescence

Poli(p-fenileno vinileno)

Poli(p-phenylene vinylene)

Polímeros conjugados

PPV

PPV

Propriedades ópticas

"Efeitos de interface sobre as propriedades ópticas de polímeros conjugados" / Effect of Interface on the Optic Conjugated Polymer Properties

Célio Aécio Medeiros Borges

28 June 2005

Esta tese de doutorado apresenta os resultados do estudo sistemático das propriedades ópticas das interfaces que aparecem em dispositivos orgânicos atuais emissores de luz ou OLEDs. Estamos interessados no entendimento do papel de cada uma das interfaces metal/polímero e ITO/polímero sobre a emissão da camada orgânica ativa emissora de luz. Para tanto, se fez necessário o domínio de todas as etapas de preparação e caracterização de filmes finos orgânicos, desde a síntese química dos polímeros até a preparação de amostras adequadas que permitissem a realização dos objetivos propostos. Ênfase foi dada aos processos de excitação e de relaxação energética dos portadores de carga (elétrons e buracos) em filmes ultrafinos automontados próximos às interfaces, correlacionando-os direta ou indiretamente com os efeitos de interface. Através do desenvolvimento e domínio de uma nova metodologia de preparação de filmes orgânicos, verificamos que a intensidade da luminescência de um filme de prova ultrafino de poli(p-fenileno vinileno) (PPV) com espessura em torno de 1,5 nm sofre grandes variações em uma extensa região próxima às interfaces metálicas de Au, Al e de ITO (óxido de índio-estanho). Esta camada de prova foi gradualmente separada da interface variando-se de forma controlada a espessura de um filme polimérico espaçador opticamente inerte. O perfil de intensidade da fotoluminescência nas proximidades das interfaces foi determinado em função da distância entre as superfícies estudadas (vidro, quartzo, metálica ou ITO) e a camada de prova emissora de PPV. Duas regiões relacionadas a processos radiativos distintos foram bem estabelecidas para as interfaces metálicas: uma região de extinção, nas proximidades da interface (< 20 nm), onde a luminescência é fortemente suprimida e uma outra de aumento da luminescência entre 20 e 90 nm. A grande variação da intensidade da luminescência observada neste trabalho é explicada considerando efeitos de interferência em uma semicavidade óptica, além dos processos de transferência de energia tipo Förster entre estados do PPV e estados de plásmons superficiais no metal. Verificamos que a distribuição espacial da radiação emitida é profundamente alterada por processos não radiativos de transferência de energia e pelas condições impostas pelas interfaces em uma semicavidade óptica. Modificações da superfície de ITO foram realizadas pelo tratamento acídico com água-régia suave. Nós observamos que a refletividade do ITO é fortemente dependente do tempo do tratamento e da espessura do espaçador. Como nos filmes metálicos, a emissão de um filme de prova de PPV sofre alterações nas proximidades da interface contendo ITO. Aqui, os parâmetros materiais (índice de difração, reflectância e comprimento de onda da emissão), a estrutura de superfície do ITO e os fatores geométricos mostram um papel importante. Cálculos da intensidade da emissão nas proximidades das interfaces descrevem de modo satisfatório os resultados experimentais. Do perfil de intensidade calculado próximo das interfaces, concluímos que a espessura e a posição da camada ativa emissora de luz devem ser otimizadas de modo a coincidir com a região de aumento ou amplificação da luminescência. / This PhD thesis is an extensive study of the optical properties of the interfaces of organic light-emitting devices (OLED’s). In particular, we investigated the influence of interfaces metal/polymer and ITO/polymer on the emission of an active layer in such devices. Therefore, it was necessary to dominate all the processes of fabrication and characterization of the multilayered structures used in the present investigation. We have used a very thin PPV probe layer (1.5 nm) to map the optical properties very near the metal/organic and the Indium-Tin Oxide (ITO)/organic interfaces. A new Spin-Layer-by-Layer method was employed which allowed a control of deposition of layers at the monolayer level. Precise variation of the metal/PPV or ITO/PPV separation over the entire substrate surface was achieved by the deposition of an organic inert spacer layer. The ITO surface modifications were carried out by soft acidic aquaregia treatment. A strong modulation of the probe layer emission was observed near the metal and ITO interfaces. These results are explained by calculations which include competing short range radiationless energy transfer and intensity modulation due effects produced by the optical cavity formed by metal/polymer films/air. At small distances (<20 nm) from interface, collective excitations in the metal act as energy acceptors, which open up an efficient nonradiative channel. Here, material parameters (diffraction index, reflectance and emission wavelength, for example), surface treatment and structure as well as geometrical factors may play an important role.

Efeito de Interface

Fotoluminescência

Poli(p-fenileno vinileno)

Polímeros conjugados

PPV

Propriedades ópticas

Conjugated Polymer

Effect of interface

Optic Properties

Photoluminescence

Poli(p-phenylene vinylene)

PPV

Zur Degradation und Optimierung von nanostrukturierten Siliciumanoden in Lithium-Ionen- und Lithium-Schwefel-Batterien

Jaumann, Tony

26 January 2017

Die vorliegende Arbeit liefert einen Beitrag für ein besseres Verständnis über die zyklische Alterung von Siliciumnanopartikel (Si-NP) als Anodenmaterial in Lithium-Ionen- und Lithium-Schwefel-Batterien. Im Fokus der Studie stand der Einfluss der Partikelgröße, des Elektrodendesigns und der Elektrolytzusammensetzung auf die elektrochemische Reversibilität des Siliciums zur Lithiumspeicherung. Über umfangreiche strukturelle Charakterisierungstechniken mittels Röntgenbeugung, Elektronenmikroskopie und der Röntgenphotoelektronenspektroskopie in Verbindung mit elektrochemischen Untersuchungsmethoden, konnten wesentliche Mechanismen zur Degradation aufgeklärt und die Funktion diverser Oberflächenverbindungen auf der Siliciumanode identifiziert werden. Als Hauptursache der Degradation von Si-NP mit einer Partikelgröße unter 20 nm konnte das Wachstum der Solid-Electrolyte-Interface (SEI) identifiziert werden. Pulverisierung und die Bildung neuer kristalliner Phasen kann ausgeschlossen werden. Es wurde ein kostengünstiges und flexibles Verfahren zur Herstellung eines nanostrukturierten Silicium-Kohlenstoff-Komposites entwickelt, welches unter optimierten Bedingungen eine spezifische Kapazität von 1280 mAh/g(Elektrode) und einen Kapazitätserhalt von 81 % über 500 Tiefentladungszyklen liefert. Es konnten erfolgreich hoch reversible Flächenkapazitäten von 5 mAh/cm^2 bei nur 4,4 mg/cm^2 Elektrodengewicht nachgewiesen werden. Für die Arbeit wurde zunächst ein Verfahren zur Herstellung von monodispersen Si-NP mit einer Größe von 5 nm – 20 nm angewendet. Die galvanostatische Zyklierung gegen Lithiummetall hat ergeben, dass mit abnehmender Partikelgröße die Reversibilität des Siliciums zunimmt. Über in situ Synchrotron XRD und post mortem XPS konnte eine stabilere Solid-Electrolyte-Interface (SEI) mit abnehmender Partikelgröße als Hauptursache identifiziert werden. Im weiteren Verlauf der Arbeit wurden Si-NP im porösen Kohlenstoffgerüst durch ein leicht modifiziertes Herstellungsverfahren abgeschieden und untersucht. Durch das veränderte Elektrodendesign konnte die Reversibilität bei gleichem Kohlenstoffgehalt deutlich verbessert werden, da der Kontaktverlust des Siliciums zum leitfähigen Gerüst durch SEI Wachstum verzögert wird. Die Elektrolytadditive Fluoroethylencarbonat und Vinylencarbonat führen zu einer weiteren Verbesserung der Reversibilität, wobei Vinylencarbonat die höchste Reversibilität zur Folge hat, jedoch einen hohen Filmwiderstand verursacht. Weiterhin wurden etherbasierte Elektrolyte, welche typischerweise in Lithium-Schwefel-Batterien zum Einsatz kommen, untersucht. Hierbei wurde eine positive Wirkung von Lithiumnitrat auf die Reversibilität von Silicium festgestellt. Es konnten erfolgreich Si-Li-S (SLS) Vollzellen getestet werden, welche eine höhere Lebensdauer als vergleichbare Zellen mit Lithiummetall als Anode aufweisen. Aus den elektrochemischen und post mortem Untersuchungen konnte ein positiver Einfluss von Polysulfiden auf die SEI von Silicium nachgewiesen werden. Durch die umfangreichen post mortem Analysen konnte die Funktion diverser, in der SEI des Siliciums auftretender Verbindungen in Abhängigkeit der Elektrolytzusammensetzung aufgeklärt werden. Es wurde ein anschaulicher Mechanismus des SEI Wachstums in Abhängigkeit des Elektrolyts erstellt. / The results of this work provide a better understanding about the cyclic aging of silicon nanoparticles (Si-NP) as anode material in Lithium-ion- and Lithium-sulfur batteries. Subject of investigation was the influence of particle size, electrode design and electrolyte composition on the electrochemical reversibility of Si-NP for lithium storage. The main characterization techniques used in this study were XRD, SEM, TEM and XPS combined with electrochemical analysis and in situ synchrotron XRD. Bare silicon nanoparticles ranging from 5 – 20 nm and silicon nanoparticles embedded within a porous carbon scaffold were prepared through a cost-effective and novel synthesis technique including the hydrolysis of trichlorosilane as feedstock. The dominant degradation mechanism of these silicon nanoparticles was identified to be the continuous growth the solid-electrolyte-interphase (SEI). Other phenomena such as pulverisation or new evolving crystalline phases are excluded. It was found that a reduction of the particle size from 20 nm to 5 nm increases the reversibility due to a thicker and therewith more stable SEI. The deposition of the silicon nanoparticles into a porous carbon scaffold caused a significant improvement of the reversibility at constant carbon content. The effect of the electrolyte additives Fluoroethylene carbonate and Vinylene carbonate was analysed in detail. Furthermore, typical electrolyte compositions used for lithium-sulfur-batteries were tested and studied. Si-Li-S (SLS) full cells were demonstrated which outperform conventional lithium-sulfur batteries in terms of life time. The systematic analysis and the rational optimization process of the particle size, electrode design and electrolyte composition allowed to provide a nanostructured silicon electrode with a specific capacity of up to 1280 mAh/g(Electrode) and 81 % capacity retention after 500 deep discharge cycles. Reversible areal capacities of 5 mAh/cm^2 at 4.4 mg/cm^2 electrode weight were demonstrated.

Silicium

Nanopartikel

Lithium-Ionen-Batterie

Lithium-Schwefel-Batterie

Anode

Fluoroethylencarbonat

Vinylencarbonat

silicon

nanoparticle

lithium-ion battery

lithium-sulfur battery

anode

fluoroethylene carbonat

vinylene carbonat

ddc:620

rvk:ZN 8730

Properties Of The Correlated Electronic States In Conjugated Organic Molecules, Polymers And Metal-Halogen Chains

Anusooya, Y

11 1900

No description available.

Organic Compounds

Polymers

Theoretical Chemistry

Conjugated Organic Molecules

Metal Halogen Chains

Poly Para Phenylene Vinylene (PPV)

Poly Para Phenylene (PPP)

Organic Chemistry

The Synthesis of Benzyloxy Substituted DP-PPVs

Oostendorp, Ryan

21 August 2013

No description available.

Chemistry

Benzyloxy

DP-PPV

Gilch

4,4-dimethoxybenzil

4,4-dihydroxybenzil

4,4-benzyloxybenzil

3,3-benzyloxybenzil

3,3-dimethoxybenzil

3,3-dihydroxybenzil

1,4-diphenyl-2,3,5,6-tetramethylbenzene

OLED

poly 2,3-diphenylphenylene vinylene