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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

New Challenge in Octupolar Architecturs for Nonlinear Optic (NLO)

Ayhan, Mehmet Menaf 10 September 2012 (has links) (PDF)
The design of nonlinear optical (NLO) molecules has become a focus of current research in telecommunications, information technologies and optical data storage. Donor-acceptor substituted dipolar molecules have been the most investigated NLO chromophores. Dipolar molecules, however, have several limitations such as low optical transparency, low thermal stability and their strong tendency to adopt anti-parallel packing in the solid state. Recently, a new class of materials based on octupolar symmetries, which lack permanent dipole moments, has been proposed for NLO applications. At a structural level, it can be shown that the basic template for 3D octupolar molecules comes to a cube with alternating charges at the corners such as donor and acceptor substituent. Despite all the various structures reported, it is worth noting that no molecules actually representing the "real" octupolar cube have been obtained so far. In this thesis, we showed that the real octupolar cube can be demonstrated by lanthanide III complexes based on ABAB type phthalocyanine featuring alternating electron donor and electron acceptor groups. These structures are characterized by UV-NIR, X-Ray and exhibit highest quadratic hyperpolarizability ever reported for an octupolar molecule. Moreover, this work was extended to nonoctupolar lanthanide homoleptic double-decker complexes based on AB3, A4, B4, T4 type phthalocyanines. It was observed that these molecules present a quite large quadratic hyperpolarizability too, but smaller than the one obtained for the Ln(ABAB)2 series, as expected.
2

New Challenge in Octupolar Architecturs for Nonlinear Optic (NLO) / Nouveau challenge dans la conception d’architecture moléculaire pour l’optique non-linéaire (ONL)

Ayhan, Mehmet Menaf 10 September 2012 (has links)
La conception de molécules pour l’optique non linéaires (ONL) est devenue un centre de recherche de pointe pour les télécommunications, les technologies de l'information et le stockage de données optiques. Les molécules dipolaires substituées par des groupes donneur-accepteur ont été les chromophores les plus étudiés pour l’ONL. Cependant les molécules dipolaires diverses limitations telles que leur transparence optique, leur faible stabilité thermique et leur tendance à adopter un alignement antiparallèle à l'état solide. Récemment, une nouvelle classe de matériaux est apparue basé sur des symétries octupolaire qui ne possède pas de dipôle permanent, pour les applications ONL. Au niveau structural, la structure générique idéale pour des molécules tridimensionnelles avec une distribution de charges octupolaire est un cube avec des charges opposées alternées à chaque angle. À ce jour, aucune molécule représentant le cube vrai (déformé) avec huit charges alternées aux sommets et délocalisation des charges complètes entre les plans supérieurs et inférieurs n’a été décrite. Dans le cadre de cette thèse, des complexes de lanthanides III à partir de phthalocyanines de type ABAB présentant en alternance des groupes donneurs et accepteurs d'électrons ont été synthétisés représentant le premier réel octupole. Ces structures ont été caractérisé par UV-NIR, X-Ray et présentent les plus élevés hyperpolarisabilité quadratique jamais enregistré pour des molécules octupolaires. En outre, ce travail a été étendu à divers type de double-decker de lanthanides homoleptiques non-octupolaire basé sur des phthalocyanines AB3, A4, B4, T4. Il a été observé que ces complexes présentent aussi des mesures d’hyperpolarisabilité quadratique élevés, mais inferieur a celles trouvé pour la série de complexes Ln (ABAB)2 octupolaire, comme prévu. / The design of nonlinear optical (NLO) molecules has become a focus of current research in telecommunications, information technologies and optical data storage. Donor-acceptor substituted dipolar molecules have been the most investigated NLO chromophores. Dipolar molecules, however, have several limitations such as low optical transparency, low thermal stability and their strong tendency to adopt anti-parallel packing in the solid state. Recently, a new class of materials based on octupolar symmetries, which lack permanent dipole moments, has been proposed for NLO applications. At a structural level, it can be shown that the basic template for 3D octupolar molecules comes to a cube with alternating charges at the corners such as donor and acceptor substituent. Despite all the various structures reported, it is worth noting that no molecules actually representing the “real” octupolar cube have been obtained so far. In this thesis, we showed that the real octupolar cube can be demonstrated by lanthanide III complexes based on ABAB type phthalocyanine featuring alternating electron donor and electron acceptor groups. These structures are characterized by UV-NIR, X-Ray and exhibit highest quadratic hyperpolarizability ever reported for an octupolar molecule. Moreover, this work was extended to nonoctupolar lanthanide homoleptic double-decker complexes based on AB3, A4, B4, T4 type phthalocyanines. It was observed that these molecules present a quite large quadratic hyperpolarizability too, but smaller than the one obtained for the Ln(ABAB)2 series, as expected. / Doğrusal olmayan optic (NLO) özellik gösteren moleküllerin tasarımı telekomünikasyon, bilgi teknolojileri ve optic very depolama alanlarında güncel bir araştırma konusudur. Alıcı-verici grup bağlı iki kutuplu moleküller en çok araştırılmış NLO malzemeleridirler. Ancak, iki kutuplu moleküllerin düşük optic şeffaflık, düşük termal kararlılık ve katı halde parallel olmayan yığılmaları gibi çeşitli sınırlamaları vardır. Son zamanlarda, kalıcı dipol momentleri olmayan octupolar simetriye dayalı, yeni bir malzeme sınıfı NLO uygulamaları için ileri sürülmüştür. Yapısal olarak bu 3D octupolar moleküller için temel şablon, köşelerinde alıcı verici grupları içeren bir olarak gösterilir. Yapılan tüm çalışmalara ragmen, bugüne kadar gerçek küpü temsil edebilen bir yapı elde edilememiştir. Bu tezde, biz bu octupolar küpün electron alıcı ve verici grupları içeren ABAB tipi halkalı yapıya dayalı lantanid kompleksleri ile ortaya konabilecğini gösterdik. Bu yapılar UV-NIR ve X-Ray ile yapıları aydınlatıldı ve bugüne kadarki en yüksek 2. dereceden NLO değerleri elde edildi. Ayrıca, bu çalışma, çeşitli octupole olmayan AB3, A4, B4 ve T4 tipi lantanit çift katlı ftalosiyaninler sentezlenerek genişletildi. Ve oktupol olmayan moleküllerin 2. Dereceden NLO değerleri oldukça büyük ama beklendiği gibi oktupol Ln(ABAB)2 daha küçük olduğu gözlendi.

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