Synthesis of Vinylene-Linked Two-Dimensional Conjugated Polymers via the Horner–Wadsworth–Emmons Reaction

Pastoetter, Dominik L., Xu, Shunqi, Borrelli, Mino, Addicoat, Matthew, Biswal, Bishnu P., Paasch, Silvia, Dianat, Arezoo, Thomas, Heidi, Berger, Reinhard, Reineke, Sebastian, Brunner, Eike, Cuniberti, Gianaurelio, Richter, Marcus, Feng, Xinliang

21 May 2024

In this work, we demonstrate the first synthesis of vinylene-linked 2D CPs, namely, 2D poly(phenylenequinoxalinevinylene)s 2D-PPQV1 and 2D-PPQV2, via the Horner–Wadsworth–Emmons (HWE) reaction of C2-symmetric 1,4-bis(diethylphosphonomethyl)benzene or 4,4′-bis(diethylphosphonomethyl)biphenyl with C3-symmetric 2,3,8,9,14,15-hexa(4-formylphenyl)diquinoxalino[2,3-a:2′,3′-c]phenazine as monomers. Density functional theory (DFT) simulations unveil the crucial role of the initial reversible C−C single bond formation for the synthesis of crystalline 2D CPs. Powder X-ray diffraction (PXRD) studies and nitrogen adsorption-desorption measurements demonstrate the formation of proclaimed crystalline, dual-pore structures with surface areas of up to 440 m2 g−1. More importantly, the optoelectronic properties of the obtained 2D-PPQV1 (Eg=2.2 eV) and 2D-PPQV2 (Eg=2.2 eV) are compared with those of cyano-vinylene-linked 2D-CN-PPQV1 (Eg=2.4 eV) produced by the Knoevenagel reaction and imine-linked 2D COF analog (2D-C=N-PPQV1, Eg=2.3 eV), unambiguously proving the superior conjugation of the vinylene-linked 2D CPs using the HWE reaction.

info:eu-repo/classification/ddc/540

ddc:540

Processamento de poli(p-fenilenovinileno) (PPV) com pulsos laser de femtossegundos: fabricação de microestruturas óptica e eletricamente ativas / Processing of poly (p-phenylenevinylene) (PPV) with femtosecond laser pulses: fabrication of optically and electrically active microstructures

Salas, Oriana Ines Avila

12 July 2018

O poli (p-fenilenevinileno), ou PPV, é um polímero de grande relevância tecnológica devido a suas propriedades eletroluminescentes, que têm sido exploradas em diodos emissores de luz orgânicos, displays flexíveis e outros dispositivos optoeletrônicos. Embora o PPV seja um material de importância para muitas aplicações, a sua síntese na nano/microescala não pode ser obtida através do método padrão, o qual utiliza o aquecimento de um polímero precursor poli (cloreto de xileno tetrahidrotiofenio) (PTHT). Este trabalho mostra como a microestruturação com pulsos de femtosegundo pode ser empregada para a síntese de PPV em regiões pré-determinadas, empregando três diferentes abordagens, permitindo uma nova metodologia para a fabricação precisa de microcircuitos poliméricos complexos, (i) na primeira abordagem, o processo de conversão é obtido pela irradiação de filmes de PTHT com pulsos laser ultracurtos em regiões previamente determinadas, o que leva ao controle espacial da formação de PPV em microescala, (ii) na segunda abordagem, microestruturas tridimensionais dopadas com PTHT foram fotopolimerizadas por absorção de dois fótons. A conversão de PTHT para PPV nestas microestruturas dopadas foi obtida após um tratamento térmico, (iii) na terceira abordagem, a transferência direta induzida por laser (LIFT) com pulsos de femtossegundos permite a deposição controlada de PPV com alta resolução espacial, fornecendo micropadrões 2D, preservando sua estrutura e propriedades ópticas. As estruturas foram caracterizadas por microscopia eletrônica de varredura, microscopia óptica de transmissão, microscopia de fluorescência e microscopia confocal de fluorescência. Suas propriedades ópticas foram analisadas através de sistemas de micro-fotoluminescência e micro-absorção implementadas em um microscópio invertido. Medidas de espectroscopia Raman, microscopia de força atômica e medidas elétricas também foram realizadas. Este trabalho mostra como a microestruturação com laser de fs pode ser explorada para a síntese de PPV em regiões pré-determinadas para fabricar uma variedade de microdispositivos, abrindo novos caminhos na optoeletrônica baseada em polímeros. / Poly(p-phenylenevinylene), or PPV, is a polymer of great technological relevance due to its electroluminescent properties, which have been exploited in organic light emitting diodes, flexible displays and other optoelectronic devices. Although PPV is a material of foremost importance for many applications, its synthesis at the nano/micro scale cannot be achieved through the standard method that uses heating of a precursor polymer poly(xylene tetrahydrothiophenium chloride)(PTHT). This work demonstrates the use of direct laser writing with femtosecond pulses to obtain the synthesis of PPV in pre-determined regions, by applying three different approaches, allowing the precise fabrication of complex polymeric microcircuits, (i) in the first approach the conversion process is achieved by irradiating PTHT films with ultra-short laser pulses in previously determined regions, which leads to the spatial control of PPV formation at microscale, (ii) in the second approach, three-dimensional microstructures doped with PTHT were photopolymerized by two photons absorption. The conversion of PTHT to PPV in these doped microstructures was obtained by a subsequent thermal treatment, (iii) in the third approach, laser-induced forward transfer (LIFT) with femtosecond pulses enables the controlled deposition of PPV with high spatial resolution, providing 2D micropatterns, while preserving its structure and optical properties. The structures were characterized by scanning electron, fluorescence, transmission and confocal fluorescence microscopies. Their optical properties were analyzed by micro-photoluminescence and micro-absorption setups assembled on an inverted microscope. Raman spectroscopy, electrical measurements and atomic force microscopy were also performed. This thesis shows the use of fs-laser writing methods for the synthesis of PPV in pre-determined regions, to fabricate a variety of microdevices, thus opening new avenues in polymer-based optoelectronics.

Absorção de dois fótons

Direct-laser writing

Femtosecond laser pulses

Laser de femtosegundos

Laser induced forward transfer (LIFT)

Microestructuração a laser

Poli (p-fenileno vinileno) (PPV)

Poly(p-phenylene vinylene) (PPV)

Two-photon absorption

Novos poli(p-xilileno)s e poli(p-fenileno vinileno)s obtidos via quinodimetanos gerados catodicamente / Novel poly(p-xylylene) s and poly (p-phenylene vinylene) are obtained via cathodically generated quinodimethanes

Li, Rosamaria Wu Chia

14 November 2002

Esta tese envolveu a síntese de 11 precursores poliméricos inéditos, derivados de bifenilos e terfenilos, substituídos por grupos receptores e doadores de elétrons, por meio de reações de acoplamento de Suzuki. Tais precursores foram convertidos aos respectivos polímeros, poli(p-xilileno)s e poli(p-fenileno vinileno)s, via redução catódica, conduzindo a um total de 11 polímeros, sendo dez deles inéditos. Os polímeros obtidos foram caracterizados por métodos espectroscópicos (UV-VIS, IV, RMN), análises térmicas, SEC e medidas de condutividade elétrica pós-dopagem. Um dos polímeros foi empregado na construção de dispositivos metal/polímero/metal (\"sanduíche\"), que permitiram a determinação da mobilidade dos portadores de carga, bem como da altura de barreira para injeção de elétrons na junção metal/polímero. / The synthesis via Suzuki coupling reaction of 11 new biphenylenic and terphenylenic polymer precursors, substituted by long-chain electron donating or withdrawing groups, is described. The electrochemical reduction of these precursors led to the corresponding poly(p-xylylene)s and poly(p-phenylene vinylene)s. Ten out of the 11 generated polymers have been never described before. AII the polymers were fully characterised by spectroscopic (UV-VIS, IR, NMR) and thermal analyses, as well as by SEC and electrical conductivity measurements of iodine-doped specimens. The positive charge carrier mobility and the barrier height for electron injection (metal/polymer) could be determined through I x V investigations of sandwich devices (metal/polymer/metal) for one of the polymers.

Conductive polymers

Electrochemical synthesis

Organic chemistry

Poli p-fenilenovinileno

Poli p-terfenilenovinileno

Polímeros (Química orgânica)

Polímeros condutores

Poly p-phenylenevinylene

Poly p-terphenylene vinylene

Polymers (Organic chemistry)

PPV

PPV

PPX

PPX

Química orgânica

Síntese eletroquímica

\"Fotoluminescência excitada no ultravioleta em polímeros conjugados\" / Photoluminescence excited in the ultraviolet in conjugated polymers

Marcelo Meira Faleiros

13 February 2007

Os polímeros conjugados luminescentes são materiais com grande potencial tecnológico, mas apesar de estudados desde a década de 80, algumas de suas propriedades óticas ainda não foram totalmente entendidas. Por exemplo, ainda persistem dúvidas quanto à natureza das suas excitações primárias. Nesse sentido foi feito um estudo da fotoluminescência do poli[2-metoxy-5-(2-etil-hexiloxi)-1,4-fenileno vinileno] (MEH-PPV), polímero semicondutor luminescente cujas propriedades ópticas já foram muito investigadas. Além da banda de absorção principal na região visível do espectro, ele possui três bandas no ultravioleta. O objetivo deste trabalho é investigar a fotoluminescência do MEH-PPV quando excitado na região do ultravioleta. Após fotoexcitação no ultravioleta, observou-se apenas a fotoluminescência usual no visível. A intensidade da emissão depende fortemente da energia de excitação, da temperatura e da estrutura morfológica do sistema polimérico, determinada pelo método de preparação das amostras. Os resultados indicam que os estados excitados no ultravioleta relaxam rapidamente de forma não-radiativa até os estados de menor energia, de onde então ocorre a luminescência. Entretanto, a eficiência da fotoluminescência excitada no ultravioleta é consideravelmente reduzida, indicando que a excitação a altas energias abre novos canais de relaxação não-radiativos. / Luminescent semiconducting polymers are technological promising materials, but although studied since the 80’s some of their optical properties have not yet been fully understood. For instance, the nature of their primary excitations is still on debate. Therefore we proposed to study the photoluminescence following photoexcitation in the ultraviolet of the polymer poly(2-methoxy-5-(2-ethyl-hexyloxy)-1,4-phenylene vinylene) (MEH-PPV). It is a semiconducting luminescent polymer with a main absorption band in the visible part of the spectrum, but with three other absorption bands in the ultraviolet. After ultraviolet photoexcitation it was observed only the usual visible photoluminescence. The intensity of photoluminescence depends strongly on temperature, excitation wavelength and morphological structure of the polymer, determined by the method of sample preparation. The results show that by ultraviolet excitation the excited states relax rapidly non-radiatively to the lower energy states, from where luminescence results. However, the photoluminescence efficiency with ultraviolet photoexcitation is considerably reduced, implying that the highly excited states in the polymer have more non-radiative relaxation channels available.

excitação no ultravioleta

fotoluminescência

MEH-PPV

polímeros conjugados luminescentes

luminescent conjugated polymers

MEH-PPV

photoluminescence

ultraviolet excitation

Processamento de poli(p-fenilenovinileno) (PPV) com pulsos laser de femtossegundos: fabricação de microestruturas óptica e eletricamente ativas / Processing of poly (p-phenylenevinylene) (PPV) with femtosecond laser pulses: fabrication of optically and electrically active microstructures

Oriana Ines Avila Salas

12 July 2018

O poli (p-fenilenevinileno), ou PPV, é um polímero de grande relevância tecnológica devido a suas propriedades eletroluminescentes, que têm sido exploradas em diodos emissores de luz orgânicos, displays flexíveis e outros dispositivos optoeletrônicos. Embora o PPV seja um material de importância para muitas aplicações, a sua síntese na nano/microescala não pode ser obtida através do método padrão, o qual utiliza o aquecimento de um polímero precursor poli (cloreto de xileno tetrahidrotiofenio) (PTHT). Este trabalho mostra como a microestruturação com pulsos de femtosegundo pode ser empregada para a síntese de PPV em regiões pré-determinadas, empregando três diferentes abordagens, permitindo uma nova metodologia para a fabricação precisa de microcircuitos poliméricos complexos, (i) na primeira abordagem, o processo de conversão é obtido pela irradiação de filmes de PTHT com pulsos laser ultracurtos em regiões previamente determinadas, o que leva ao controle espacial da formação de PPV em microescala, (ii) na segunda abordagem, microestruturas tridimensionais dopadas com PTHT foram fotopolimerizadas por absorção de dois fótons. A conversão de PTHT para PPV nestas microestruturas dopadas foi obtida após um tratamento térmico, (iii) na terceira abordagem, a transferência direta induzida por laser (LIFT) com pulsos de femtossegundos permite a deposição controlada de PPV com alta resolução espacial, fornecendo micropadrões 2D, preservando sua estrutura e propriedades ópticas. As estruturas foram caracterizadas por microscopia eletrônica de varredura, microscopia óptica de transmissão, microscopia de fluorescência e microscopia confocal de fluorescência. Suas propriedades ópticas foram analisadas através de sistemas de micro-fotoluminescência e micro-absorção implementadas em um microscópio invertido. Medidas de espectroscopia Raman, microscopia de força atômica e medidas elétricas também foram realizadas. Este trabalho mostra como a microestruturação com laser de fs pode ser explorada para a síntese de PPV em regiões pré-determinadas para fabricar uma variedade de microdispositivos, abrindo novos caminhos na optoeletrônica baseada em polímeros. / Poly(p-phenylenevinylene), or PPV, is a polymer of great technological relevance due to its electroluminescent properties, which have been exploited in organic light emitting diodes, flexible displays and other optoelectronic devices. Although PPV is a material of foremost importance for many applications, its synthesis at the nano/micro scale cannot be achieved through the standard method that uses heating of a precursor polymer poly(xylene tetrahydrothiophenium chloride)(PTHT). This work demonstrates the use of direct laser writing with femtosecond pulses to obtain the synthesis of PPV in pre-determined regions, by applying three different approaches, allowing the precise fabrication of complex polymeric microcircuits, (i) in the first approach the conversion process is achieved by irradiating PTHT films with ultra-short laser pulses in previously determined regions, which leads to the spatial control of PPV formation at microscale, (ii) in the second approach, three-dimensional microstructures doped with PTHT were photopolymerized by two photons absorption. The conversion of PTHT to PPV in these doped microstructures was obtained by a subsequent thermal treatment, (iii) in the third approach, laser-induced forward transfer (LIFT) with femtosecond pulses enables the controlled deposition of PPV with high spatial resolution, providing 2D micropatterns, while preserving its structure and optical properties. The structures were characterized by scanning electron, fluorescence, transmission and confocal fluorescence microscopies. Their optical properties were analyzed by micro-photoluminescence and micro-absorption setups assembled on an inverted microscope. Raman spectroscopy, electrical measurements and atomic force microscopy were also performed. This thesis shows the use of fs-laser writing methods for the synthesis of PPV in pre-determined regions, to fabricate a variety of microdevices, thus opening new avenues in polymer-based optoelectronics.

Absorção de dois fótons

Laser de femtosegundos

Microestructuração a laser

Poli (p-fenileno vinileno) (PPV)

Direct-laser writing

Femtosecond laser pulses

Laser induced forward transfer (LIFT)

Poly(p-phenylene vinylene) (PPV)

Two-photon absorption

Novos poli(p-xilileno)s e poli(p-fenileno vinileno)s obtidos via quinodimetanos gerados catodicamente / Novel poly(p-xylylene) s and poly (p-phenylene vinylene) are obtained via cathodically generated quinodimethanes

Rosamaria Wu Chia Li

14 November 2002

Esta tese envolveu a síntese de 11 precursores poliméricos inéditos, derivados de bifenilos e terfenilos, substituídos por grupos receptores e doadores de elétrons, por meio de reações de acoplamento de Suzuki. Tais precursores foram convertidos aos respectivos polímeros, poli(p-xilileno)s e poli(p-fenileno vinileno)s, via redução catódica, conduzindo a um total de 11 polímeros, sendo dez deles inéditos. Os polímeros obtidos foram caracterizados por métodos espectroscópicos (UV-VIS, IV, RMN), análises térmicas, SEC e medidas de condutividade elétrica pós-dopagem. Um dos polímeros foi empregado na construção de dispositivos metal/polímero/metal (\"sanduíche\"), que permitiram a determinação da mobilidade dos portadores de carga, bem como da altura de barreira para injeção de elétrons na junção metal/polímero. / The synthesis via Suzuki coupling reaction of 11 new biphenylenic and terphenylenic polymer precursors, substituted by long-chain electron donating or withdrawing groups, is described. The electrochemical reduction of these precursors led to the corresponding poly(p-xylylene)s and poly(p-phenylene vinylene)s. Ten out of the 11 generated polymers have been never described before. AII the polymers were fully characterised by spectroscopic (UV-VIS, IR, NMR) and thermal analyses, as well as by SEC and electrical conductivity measurements of iodine-doped specimens. The positive charge carrier mobility and the barrier height for electron injection (metal/polymer) could be determined through I x V investigations of sandwich devices (metal/polymer/metal) for one of the polymers.

Poli p-fenilenovinileno

Poli p-terfenilenovinileno

Polímeros (Química orgânica)

Polímeros condutores

PPV

PPX

Química orgânica

Síntese eletroquímica

Conductive polymers

Electrochemical synthesis

Organic chemistry

Poly p-phenylenevinylene

Poly p-terphenylene vinylene

Polymers (Organic chemistry)

PPV

PPX

\"Fotoluminescência excitada no ultravioleta em polímeros conjugados\" / Photoluminescence excited in the ultraviolet in conjugated polymers

Faleiros, Marcelo Meira

13 February 2007

Os polímeros conjugados luminescentes são materiais com grande potencial tecnológico, mas apesar de estudados desde a década de 80, algumas de suas propriedades óticas ainda não foram totalmente entendidas. Por exemplo, ainda persistem dúvidas quanto à natureza das suas excitações primárias. Nesse sentido foi feito um estudo da fotoluminescência do poli[2-metoxy-5-(2-etil-hexiloxi)-1,4-fenileno vinileno] (MEH-PPV), polímero semicondutor luminescente cujas propriedades ópticas já foram muito investigadas. Além da banda de absorção principal na região visível do espectro, ele possui três bandas no ultravioleta. O objetivo deste trabalho é investigar a fotoluminescência do MEH-PPV quando excitado na região do ultravioleta. Após fotoexcitação no ultravioleta, observou-se apenas a fotoluminescência usual no visível. A intensidade da emissão depende fortemente da energia de excitação, da temperatura e da estrutura morfológica do sistema polimérico, determinada pelo método de preparação das amostras. Os resultados indicam que os estados excitados no ultravioleta relaxam rapidamente de forma não-radiativa até os estados de menor energia, de onde então ocorre a luminescência. Entretanto, a eficiência da fotoluminescência excitada no ultravioleta é consideravelmente reduzida, indicando que a excitação a altas energias abre novos canais de relaxação não-radiativos. / Luminescent semiconducting polymers are technological promising materials, but although studied since the 80’s some of their optical properties have not yet been fully understood. For instance, the nature of their primary excitations is still on debate. Therefore we proposed to study the photoluminescence following photoexcitation in the ultraviolet of the polymer poly(2-methoxy-5-(2-ethyl-hexyloxy)-1,4-phenylene vinylene) (MEH-PPV). It is a semiconducting luminescent polymer with a main absorption band in the visible part of the spectrum, but with three other absorption bands in the ultraviolet. After ultraviolet photoexcitation it was observed only the usual visible photoluminescence. The intensity of photoluminescence depends strongly on temperature, excitation wavelength and morphological structure of the polymer, determined by the method of sample preparation. The results show that by ultraviolet excitation the excited states relax rapidly non-radiatively to the lower energy states, from where luminescence results. However, the photoluminescence efficiency with ultraviolet photoexcitation is considerably reduced, implying that the highly excited states in the polymer have more non-radiative relaxation channels available.

excitação no ultravioleta

fotoluminescência

luminescent conjugated polymers

MEH-PPV

MEH-PPV

photoluminescence

polímeros conjugados luminescentes

ultraviolet excitation

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

Jaumann, Tony

28 November 2016

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.

info:eu-repo/classification/ddc/620

ddc:620

Vinylene-Linked 2D Conjugated Covalent Organic Frameworks by Wittig Reaction

Liu, Yannan, Fu, Shuai, Pastoetter, Dominik L., Khan, Arafat Hossain, Zhang, Yingying, Dianat, Arezoo, Xu, Shunqi, Liao, Zhongquan, Richter, Marcus, Yu, Minghao, Položij, Miroslav, Brunner, Eike, Cuniberti, Gianaurelio, Heine, Thomas, Bonn, Mischa, Wang, Hai I., Feng, Xinliang

27 February 2024

Vinylene-linked two-dimensional covalent organic frameworks (V-2D-COFs) have shown great promise in electronics and optoelectronics. However, only a few reactions for V-2D-COFs have been developed hitherto. Besides the kinetically low reversibility of C=C bond formation, another underlying issue facing the synthesis of V-2D-COFs is the attainment of high (E)-alkene selectivity to ensure the appropriate symmetry of 2D frameworks. Here, we tailor the E/Z selectivity of the Wittig reaction by employing a proper catalyst (i.e., Cs2CO3) to obtain more stable intermediates and elevating the temperature across the reaction barrier. Subsequently, the Wittig reaction is innovatively utilized for the synthesis of four crystalline V-2D-COFs by combining aldehydes and ylides. Importantly, the efficient conjugation and decent crystallinity of the resultant V-2D-COFs are demonstrated by their high charge carrier mobilities over 10 cm2 V−1 s−1, as revealed by non-contact terahertz (THz) spectroscopy.

info:eu-repo/classification/ddc/540

ddc:540

Combination of Knoevenagel Polycondensation and Water-Assisted Dynamic Michael-Addition-Elimination for the Synthesis of Vinylene-Linked 2D Covalent Organic Frameworks

Xu, Shunqi, Liao, Dr. Zhongquan, Dianat, Arezoo, Park, Sang-Wook, Addicoat, Matthew A., Fu, Yubin, Pastoetter, Dominik L., Fabozzi, Filippo Giovanni, Liu, Yannan, Cuniberti, Gianaurelio, Richter, Marcus, Hecht, Stefan, Feng, Xinliang

22 April 2024

Vinylene-linked two-dimensional conjugated covalent organic frameworks (V-2D-COFs), belonging to the class of two-dimensional conjugated polymers, have attracted increasing attention due to their extended π-conjugation over the 2D backbones associated with high chemical stability. The Knoevenagel polycondensation has been demonstrated as a robust synthetic method to provide cyano (CN)-substituted V-2D-COFs with unique optoelectronic, magnetic, and redox properties. Despite the successful synthesis, it remains elusive for the relevant polymerization mechanism, which leads to relatively low crystallinity and poor reproducibility. In this work, we demonstrate the novel synthesis of CN-substituted V-2D-COFs via the combination of Knoevenagel polycondensation and water-assisted dynamic Michael-addition-elimination, abbreviated as KMAE polymerization. The existence of C=C bond exchange between two diphenylacrylonitriles (M1 and M6) is firstly confirmed via in situ high-temperature NMR spectroscopy study of model reactions. Notably, the intermediate M4 synthesized via Michael-addition can proceed the Michael-elimination quantitatively, leading to an efficient C=C bond exchange, unambiguously confirming the dynamic nature of Michael-addition-elimination. Furthermore, the addition of water can significantly promote the reaction rate of Michael-addition-elimination for highly efficient C=C bond exchange within 5 mins. As a result, the KMAE polymerization provides a highly efficient strategy for the synthesis of CN-substituted V-2D-COFs with high crystallinity, as demonstrated by four examples of V-2D-COF-TFPB-PDAN, V-2D-COF-TFPT-PDAN, V-2D-COF-TFPB-BDAN, and V-2D-COF-HATN-BDAN, based on the simulated and experimental powder X-ray diffraction (PXRD) patterns as well as N2-adsorption–desorption measurements. Moreover, high-resolution transmission electron microscopy (HR-TEM) analysis shows crystalline domain sizes ranging from 20 to 100 nm for the newly synthesized V-2D-COFs.

info:eu-repo/classification/ddc/540

ddc:540

info:eu-repo/classification/ddc/660

ddc:660