Global ETD Search

41	Polyhydroxyalkanoates production by a bacterium isolated from mangrove soil samples collected from Quang Ninh province: Research article Doan, Thuoc Van, Nguyen, Binh Thi 15 July 2013 (has links) A PHA producing bacterium (strain QN271) was selected from mangrove soil samples collected from Quang Ninh province by using the Nile red dying technique. PHA accumulation in the selected bacterium strain was confirmed by transmission electron microscope. With the exception of maltose or sucrose, the bacterium strain was found to be able to synthesize PHA from various carbon sources (glucose, xylose, fructose, glycerol, and glucose plus propionate). The strain accumulated poly(3-hydroxybutyrate) from glucose, fructose, xylose, and glycerol whereas poly(3-hydroxybutyrate-co-3-hydroxyvalarate) was produced when a combination of glucose and propionate was included in the culture medium. Fructose was found to be most suitable substrate for PHA synthesis by strain QN271. PHA content of 63.3% and CDW of 6 g/L were obtained after 32 hrs of cultivation in fructose medium. / Chủng vi khuẩn có khả năng sinh tổng hợp PHA đã được phân lập từ đất rừng ngập mặn tỉnh Quảng Ninh nhờ kỹ thuật nhuộm với Nile red. Ảnh quan sát dưới kính hiển vi điện tử dẫn truyền chứng tỏ rằng chủng vi khuẩn này có khả năng tích lũy lượng lớn PHA trong tế bào. Chủng vi khuẩn tuyển chọn có khả năng sinh tổng hợp PHA từ nhiều nguồn các bon khác nhau như glucose, xylose, fructose, glucerol, glucose và propionate nhưng không có khả năng tổng hợp PHA từ maltose hoặc saccharose. Chủng vi khuẩn tuyển chọn tổng hợp poly (3-hydroxybutyrate) từ các nguồn các-bon như glucose, xylose, fructose, hay glycerol, trong khi đó poly (3-hydroxybutyrateco- 3-hydroxyvalarate) sẽ được tổng hợp khi phối hợp sử dụng hai nguồn các-bon (glucose và propionate). Fructose là nguồn các-bon tốt nhất cho chủng QN271 sinh tổng hợp PHA, khi nuôi cấy trong môi trường có fructose chủng vi khuẩn này có thể tạo ra lượng sinh khối là 6 g/L trong đó có chứa 63.3% PHA sau 32 giờ. info:eu-repo/classification/ddc/579 ddc:579
42	Modification of High trans-Polybutadiene Copolymer and Poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) with Nano Fillers Ding, Leiyuchuan 18 October 2013 (has links) No description available. Polymers trans 1 4 polybutadiene nanocomposite clay silica reinforcement
43	Processing and characterization of conjugated polymers utilizing electrospinning technique for optoelectronic applications Ahmad, Humayun 10 May 2024 (has links) (PDF) The electrospinning technique is an attractive route for processing conjugated polymers (CPs) in a significant quantity for large-scale applications. However, the processing-structure-property relationship of the electrospinning process for CPs is not well understood. This dissertation provides a fundamental understanding regarding the structure development of CPs in electrospun fibers because of different processing conditions and relates that to fiber properties. Electrospinning was conducted for a mixture of polyethylene oxide (PEO) and poly(3-hexylthiophene) (P3HT) of three different molecular weights and two aging conditions: freshly prepared and 24 h aged spinning solutions. The aging of the spinning solution led to the self-assembly of P3HT chains, particularly with dominant H-aggregation for the higher molecular weight of P3HT. Those preexisting H-aggregates in the solution were retained and even increased in the fibers during electrospinning. Single fiber electrical conductivity, measured using a custom-built technique, has been found to increase with increasing molecular weight, particularly, a significant enhancement of that was observed for the fibers from the aged solution compared to the fibers obtained from the freshly prepared solution. Blending insulating polymers in CPs for electrospinning can hamper charge-carrier transfer, particularly when a large amount of insulating polymers is used for electrospinning. Thus, we adopted a coaxial electrospinning approach to avoid the blending of insulating components and to preserve the electrical properties of CPs. The coaxial fiber consisted of flexible polymers such as butyl rubber (BR), polymethylmethacrylate (PMMA), and PEO in the core and P3HT in the shell. BR in the core led to highly stretchable fibers. Further, P3HT in the shell facilitated the direct doping of the fiber without any post-treatment. The electrical conductivity of the doped fibers did not change significantly up to 400% strain and remained almost unchanged under cyclic loading, showing excellent mechanical reversibility. The general applicability of the spinning approach developed here has been demonstrated by successfully electrospinning donor-acceptor CP at the shell of the coaxial fibers. Our results provide new understandings linking the processing of CPs in fibers, the structural evolution of CPs in the fibers, and the corresponding electrical properties as a function of molecular weight, aging of solution, and mechanical loading.
44	Cellules photovoltaïques organiques à base de nouveaux copolymères à blocs rigide-flexible Urien, Mathieu 16 October 2008 (has links) Ce travail de recherche pluridisciplinaire a consisté en l'étude de cellules photovoltaïques organiques à base de nouveaux copolymères à blocs de type rigide-flexible. L'idée était de proposer une alternative aux mélanges donneur/accepteur, dont la morphologie en film est très difficile à contrôler, en élaborant de nouveaux matériaux conjugués capables de s'auto-organiser et de créer une nano-structuration de la couche active, permettant ainsi d'optimiser certains paramètres du processus photovoltaïque (dissociation de l'exciton, conduction des charges vers les électrodes). La première étape a consisté à développer une synthèse simplifiée et versatile de copolymères constitués d'un bloc conjugué donneur (poly(3-hexylthiophène), d'un bloc flexible polystyrène, et d'un accepteur d'électron (C60). La seconde étape a consisté à caractériser ces matériaux originaux en tant que couche active ou compatibilisants dans des dispositifs photovoltaïques organiques et ainsi montrer leur potentiel. / This multidisciplinary work deals with the study of organic photovoltaic cells based on new rod-coil block copolymers. The aim was to replace donor/acceptor blends which are currently limited by poor control over their thin-film morphology. It was expected that the new materials may self-assemble to give a nano-structuration of the active layer, and thereby optimize the principal physical photovoltaic processes, namely exciton separation and conduction of charge-carriers through the film to the electrodes. A versatile and simplified synthesis of rod-coil copolymers consisting of a donor conjugated block [poly(3-hexylthiophene], a flexible block (polystyrene) and an electron acceptor (C60) was developed. The characterization of the new materials demonstrated their potential as an active layer or compatibilizer in photovoltaic devices. Electronique organique Copolymères à blocs rigide-flexible Poly(3-hexylthiophène) (P3HT) Nanostructuration Organic photovoltaic cells (OPV) Organic electronics Rod-coil block copolymers Poly(3-hexylthiophene) (P3HT) Thin film nano-structuration
45	Elaboration et étude de matériaux hybrides orientés et nanostructurés d'intérêt pour l'électronique organique / Elabotation and characterization of oriented and nanostructured hybrid materials of interest for organic electronics Hartmann, Lucia 04 April 2012 (has links) Le but de cette thèse était d’élaborer et d’étudier des films minces hybrides orientés et nanostructurés composés d’un polymère semi-conducteur, le poly(3-hexylthiophène) regiorégulier (P3HT) et de nanocristaux semiconducteurs de CdSe (sphères, bâtonnets). Pour cela, deux méthodes ont été mises en œuvre: la croissance épitaxiale directionnelle et le brossage mécanique. Les films de P3HT purs épitaxiés et brossés se différencient en termes de nanomorphologie, d’ordre cristallin et de structure. Les premiers présentent une morphologie lamellaire et une structure de fibre où les chaînes conjuguées sont alignées suivant l’axe de fibre. Les films brossés ne présentent pas de structure lamellaire et les domaines cristallins sont orientés préférentiellement «flat-on». Ces différences se reflètent dans les propriétés optiques des films épitaxiés et brossés. Le degré d’orientation des films brossés dépend fortement du poids moléculaire et une forte anisotropie du transport de charges a été observée. Les films hybrides épitaxiés sont nanostructurés avec localisation des nanocristaux dans les zones amorphes du P3HT. Par ailleurs, l’analyse par tomographie électronique de ces films montre une structure en bicouche avec une couche hybride surmontée d’une couche de P3HT pur. Les films hybrides brossés montrent clairement un alignement des nanobâtonnets de CdSe et des chaînes du P3HT parallèlement à l’axe du brossage. Les degrés d’orientation du P3HT et des nanobâtonnets sont corrélés et dépendent de la proportion en nanoparticules indiquant que c’est la matrice polymère qui induit l’orientation des nanobâtonnets. / The aim of this thesis was to elaborate and characterize hybrid oriented and nanostructured thin films composed of a semiconducting polymer, regioregular poly(3-hexylthiophène) (P3HT) and semiconducting CdSe nanocrystals (spheres, rods). Two orientation methods were used: directional epitaxial crystallization and mechanical rubbing. Epitaxied and rubbedfilms of pure P3HT show strong differences in terms of nanomorphology, crystalline order and structure. Epitaxied films possess a lamellar morphology, a 3D crystalline order and fiber symmetry where the P3HT backbones (cP3HT) are aligned along the fiber axis. Rubbed films do not show a lamellar morphology and have a 2D crystalline order with crystalline domains preferentially oriented “flat-on” relative to the substrate. These differences are reflected in the optical properties of the films. The orientation degree achieved in rubbed films strongly depends on the molecular weight of the polymer. There is also a strong anisotropy of the charge transport properties. Regarding hybrid epitaxied layers, we observed a nanostructuration with a localization of the CdSe nanocrystals into the amorphous zones of the P3HT. Moreover, electron tomography analysis shows that such films have a bilayer structure with a hybrid layer covered by pure P3HT. In rubbed hybrid films prepared with nanorods, the long axis of the nanorods as well as the P3HT backbone are oriented parallel tothe rubbing direction. The degree of in-plane orientation of the rods and of the P3HT matrix match closely and depend on the proportion of CdSe nanrods in the films. These results suggest that the P3HT matrix enforces the orientation of the rods. Organique électronique Polymère semi-conducteur Poly(3-hexylthiophène) Orientation des polymères Brossage mécanique Nanocristaux semiconducteurs Epitaxie Ligand Organic electronics Semi-conducting polymers Poly(3-hexylthiophene) Orientation of polymers Mechanical rubbing Epitaxy Ligand exchange Semi-conducting nanocrystals 621.38 668.9
46	Towards new π-conjugated systems for photovoltaic applications / Vers de nouveaux systèmes π-conjugués pour des applications photovoltaïques Chevrier, Michèle 15 September 2016 (has links) Le développement des énergies renouvelables est aujourd’hui devenu un enjeu mondial majeur comme alternative aux énergies fossiles dans la production d'énergie. Parmi elles, l’énergie solaire est considérée comme la source la plus prometteuse, permettant de couvrir l’ensemble des besoins énergétiques liés à l’activité humaine. Les cellules photovoltaïques les plus performantes aujourd’hui, entre 16 et 18 % en modules, sont composées de silicium, un semi-conducteur inorganique. Cependant, leur coût de production élevé a nécessité le développement de matériaux alternatifs moins couteux. Parmi les voies explorées, les cellules solaires organiques ont émergé comme une alternative prometteuse pour produire l’électricité à faible coût. Le sujet de cette thèse s’intègre dans ce contexte de recherche. Deux types de cellules solaires ont été étudiés : les cellules à hétérojonction en volume (BHJ) et sensibilisées au colorant (DSSCs). Le courant photogénéré repose généralement (i) dans les cellules BHJ, sur le transfert entre de charge entre un polymère donneur et un accepteur d’électrons (fullerène), tels que le couple poly(3-hexyl)thiophène (P3HT) et [6,6]-phényl-C61-butanoate de méthyle (PCBM), et (ii) dans les DSSCs, la sensibilisation de la surface d’un semi-conducteur inorganique tel que l’oxyde de titane par un colorant et la présence d’un électrolyte, jouant le rôle de médiateur redox. Bien qu’ayant atteint des rendements de photoconversion respectifs de 5 et 13 %, ces cellules nécessitent des améliorations pour une commercialisation à grande échelle. Tout d’abord, les performances des cellules BHJ à base de P3HT sont considérablement limitées par sa faible absorption, ne couvrant pas la globalité du spectre solaire. Afin de palier ce problème, nous avons combiné le P3HT avec des chromophores, i.e. des porphyrines, ayant une absorption plus étendue. Ensuite, pour assurer une meilleure extraction des charges au sein du dispositif, une couche interfaciale cathodique à base de polyélectrolytes pi-conjugués a été ajoutée. Enfin, des colorants extraits de la biomasse ont été préparés afin de remplacer les colorants coûteux à base de ruthénium. En outre, les électrolytes liquides étant volatils et corrosifs, ce qui limite considérablement la stabilité des DSSCs, des électrolytes solides à base de polymères ont été étudiés comme alternative. / Among renewable energies, the sunlight has by far the highest theoretical potential to meet the worldwide need in energy. Photovoltaic devices are thus currently the subject of intense research for low-cost conversion of sunlight into electrical power. In particular, organic photovoltaics have emerged as an interesting alternative to produce electricity due to their low manufacturing cost compared to silicon solar cells, their mechanical flexibility and the versatility of the possible chemical structures. In this dissertation, we focused our research on the development of new organic pi-conjugated materials for organic solar cells applications. Two types of solar cells have been studied during this work: bulk heterojunction and dye-sensitized solar cells. The charge transfer leading to the photocurrent is usually based on (i) a polymer donor and a fullerene acceptor in BHJ solar cells, such as the widely studied poly(3-hexylthiophene) (P3HT) and [6,6]-phenyl-C61-butyric acid methyl ester (PCBM) materials and (ii) a metal oxide (titanium oxide) sensitized with a dye and an electrolyte in DSSCs. Despite power conversion efficiencies have reached 5 and 13 % respectively for these two types of devices, they still display several drawbacks that limit their commercialization. P3HT displays a narrow absorption of the solar spectrum thus limiting the conversion efficiency. To overcome this limitation, we combined P3HT with chromophores, i.e. porphyrins, having an extending absorption. Then, to ensure better charge transfer and extraction within the device, a cathode interfacial layer based on cationic pi-conjugated polyelectrolytes was added. Finally, dyes extracted from the biomass (chlorophyll a derivatives) were synthesized to replace the expensive ruthenium dyes in DSSCs. Since liquid electrolytes are volatile and corrosive, which considerably limit the DSSCs stability, solid polymer electrolytes were also developed as an alternative. Cellule solaire à hétérojonction Cellule solaire à colorant Polymérisation KCTP Polyélectrolyte conjugué Colorant à base de chlorophylle A Bulk-Heterojunction solar cell Dye-Sensitized solar cell KCTP polymerization Conjugated polyelectrolyte Dye base on chlorophyll A
47	Structure property relationship and thermal stability of organic photovoltaic cells Motaung, David Edmond January 2010 (has links) <p>In this thesis, regioregularpoly( 3-hexylthiophene) (rr-P3HT) polymer was used as a light absorption and electron donating material, while the C60 fullerene and its derivative [6,6]-phenyl C61-butyric acid methyl ester (PCBM) were used as electron acceptor materials. The effect of solvent to control the degree of mixing of the polymer and fullerene components, as well as the domain size and charge transport properties of the blends were investigated in detail using P3HT:C60 films. The photo-physical, structural and electrical transport properties of the polymer blends were carried out according to their ratios. A distinctive photoluminescence (PL) quenching effect was observed indicating a photo-induced electron transfer. In this thesis, the effect of solvents on the crystallization and interchain interaction of P3HT and C60 fullerene films were studied using XRD, UV-vis, PL, Raman and FTIR spectroscopy. The polymer blends formed with non-aromatic solvents exhibited an improved crystallinity and polymer morphology than that formed with aromatic solvents. An improved ordering was demonstrated in the polymer films spin coated from non-aromatic solvents. This indicates that the limited solubility of rr P3HT in a marginal solvent such as non-aromatic solvents can offer a strategy to obtain highly ordered crystal structures and lead directly to optimal morphologies on the films.</p> Poly(3-hexylthiophene) Fullerene Polymer solar cells Morphology Quenching Crystallinity Annealing Thermal transition Phase separation Stability Thermal degradation.
48	Wet Organic Field Effect Transistor as DNA sensor Chiu, Yu-Jui January 2008 (has links) Label-free detection of DNA has been successfully demonstrated on field effect transistor (FET) based devices. Since conducting organic materials was discovered and have attracted more and more research efforts by their profound advantages, this work will focus on utilizing an organic field effect transistor (OFET) as DNA sensor. An OFET constructed with a transporting fluidic channel, WetOFET, forms a fluid-polymer (active layer) interface where the probe DNA can be introduced. DNA hybridization and non-hybridization after injecting target DNA and non-target DNA were monitored by transistor characteristics. The Hysteresis area of transfer curve increased after DNA hybridization which may be caused by the increasing electrostatic screening induced by the increasing negative charge from target DNA. The different morphology of coating surface could also influence the OFET response. Organic field effect transistor (OFET) Wet OFET Poly(3-hexylthiophene) (P3HT) DNA sensor Conjugated polymer Micro fluidic channel. Physics Fysik
49	Contribution à la conception de guides optiques à fortes susceptibilités non-linéaires d'ordre 3 Messaad, Khalida 09 July 2009 (has links) (PDF) Pour accompagner la demande accrue en termes de débits d'informations (40 Gb.s-1 et au-delà) dans les réseaux, il devient nécessaire d'insérer des fonctions optiques rapides pour le traitement du signal. Afin de pouvoir les réaliser, cette thèse s'intéresse à l'exploitation des effets des susceptibilités diélectriques non linéaires d'ordre 3 (ou ki(3)). Ainsi la thèse présente l'étude de la conception de guides monomodes à base de P3AT (Poly(3-AlkylThiophène)), polymère n'ayant jamais été utilisé en guides d'ondes. Après un état de l'art des fonctions cibles et des matériaux, nous montrons que les guides en P3AT pourraient aboutir à des fonctions miniaturisées tout-optique ultra-rapides. Afin de prévoir la mesure de l'effet Kerr de ces matériaux en structure guidante à 1550 nm, un premier banc de caractérisation par auto-modulation de phase a été optimisé et validé avec des fibres standards et spéciales. Pour la conception des guides ensuite, il a été nécessaire de faire la synthèse du polymère pour assurer une bonne solubilité pour la mise en oeuvre. Nous avons ensuite travaillé à l'étude de plusieurs structures de guides : ‘‘ridge'', induits par ruban, ruban inversé, hybrides. Chaque structure a été validée avec des polymères passifs ou standards, mais la propagation dans les guides P3AT n'a pu être mise en évidence. Cependant nous avons démontré que les pertes optiques n'étaient pas intrinsèques au matériau P3AT, mais plutôt causées par la diffusion de lumière par des centres diffusants extrinsèques. [PHYS] Physics Polymères conjugués Optique intégrée Auto-modulation de phase Coefficient Kerr Pertes optiques Poly(3-AlkylThiophène) Polymérisation
50	Electrochemical Polymerization of Thiophene Derivatives and its Applicability as the Cathode Material of Li-Ion Battery Her, Li-jane 07 February 2006 (has links) Electrochemical copolymerizations of thiophene (Th) and 3,4-ethylenedioxythiophene (EDOT) was performed in this study. Incorporation of Th with EDOT units have accelerated deposition rate in relative to the simple polymerization behavior of EDOT. The electrochemical properties of poly(thiophene-co-3,4-ethylenedioxythiophene) (PTh-EDOT) are different from the homopolymers of polythiophene (PTh) and poly(3,4-ethylenedioxythiophene) (PEDOT). PTh-EDOT were then served as cathode materials of lithium-ion (Li-ion) batteries to test their capability to transfer lithium ion in 1.0 M LiPF6/ethylene carbonate/dimethyl carbonate solution. PTh-EDOT copolymer prepared from the monomer ratio of 1/1 (Th/EDOT) shows better stability than PEDOT and PTh homopolymers, polymer property enhancement by copolymerization is thus demonstrated. A composite electrode material PEDOT/LiCoO2 was prepared from the electrochemical polymerization of EDOT on LiCoO2 electrode was primarily prepared to inspect the influence of PEDOT on the electrochemical features of LiCoO2. Scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) show the successful deposition of PEDOT over LiCoO2 particles. Compared to the simple LiCoO2 electrode, PEDOT/LiCoO2 composite cathode shows enhanced properties including rate capability and cycle stability for potential Li-ion battery application. Nevertheless, differential scanning calorimetry (DSC) scans on the fully charged cathodes imply that PEDOT may reduce the thermal stability of LiCoO2. Two carbon materials, vapor grown carbon fibers (VGCF) and nano-scaled Ketjen black EC (KB), were implemented into LiCoO2 electrode. The influence of different carbon additive and their content on the performance of LiCoO2 such as rate capability and cycle ability has been evaluated. KB shows more positive effects than VGCF even in the case of a low 1 wt% content. Furthermore, incorporation of PEDOT was made by electrochemical deposition of EDOT on the preformed LiCoO2-VGCF and LiCoO2-KB composite electrodes. The influence of the carbon additives and the conductive PEDOT polymer on LiCoO2 was then investigated. Compared to the electrodes without PEDOT coating, PEDOT-incorporated composite electrodes show larger capacity, better transfer rate of lithium ions in electrolytes, and enhanced cycle ability. The electrochemical deposition of PEDOT on the LiCoO2/nano-carbon cathodes provides a new approach to implement the conducting polymers in Li-ion batteries. poly(3¡A 4-ethylenedioxythiophene) electrochemical copolymerization rate capability lithium-ion battery Ketjenblack EC cycle ability vapor grown carbon fibers LiCoO2

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