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dc.contributor.authorKapuściński, Szymon Piotr
dc.date.accessioned2023-01-26T11:50:22Z
dc.date.available2023-01-26T11:50:22Z
dc.date.issued2019
dc.identifier.urihttp://hdl.handle.net/11089/45612
dc.description.abstractLiquid crystalline materials based on stable organic radicals constitute a unique class of connections, which combine features typical for liquid crystals and magnetic properties characteristic for open-shell systems of radicals. Selected issues regarding the fundamental properties of liquid crystals including the influence of the molecular structure on the type and organization degree of liquid crystalline phases are described in subsection 4.1. The introduction describes the basic properties of organic radicals, their use as structural elements of self-organizing systems, and the main techniques for studying magnetic properties and their analyses as well. Among the wide range of stable radicals, the most commonly used in the design of liquid crystals are heterocyclic radicals. The first works on paramagnetic liquid crystals come from the mid-1970s, and are oriented to the use of π-localized aminoxyl radicals such as DOKSYL and TEMPO. In next decades, attention was also paid to other liquid crystal nitroxyl radicals, such as nitronyl-nitroxide and PROXYL derivatives, however, only in the latter ones it was possible to successfully locate the heterocyclic radical in the center of the rigid core of the molecule, with maintaining the liquid crystalline properties of the material. From the anisotropic properties (magnetic, dielectric, etc.) point of view, placement of the radical in the central core favors the self-assembly of paramagnetic fragments leading to effective spin-spin interactions in the LC phase. This work briefly describes the achievements in the field of liquid crystal derivatives of nitroxyl radicals, which are summarized in subsection 4.4.1. Pioneer studies on a new class of paramagnetic liquid-crystalline 6-oxoverdazyl and 1,4-dihydrobenzo[e][1,2,4]triazin-4-yl radicals, carried out in recent years in the team of prof. Piotr Kaszyński, showed interesting photoconductive properties and strong and diverse magnetic interactions in the LC phase. The most important information on both connection classes is provided in subsections 4.4.2 and 4.4.3. The main goal of this doctoral thesis, toward to a new class of paramagnetic liquid crystal materials based on π-delocalized radicals, was to design molecules to self-organizing their paramagnetic fragments into liquid crystalline phases, their synthesis and physicochemical studies, with particular emphasis on magnetic studies, and a thorough analysis of structure–liquid crystalline and magnetic properties relationships. The most attention was paid to the development of the newly-known liquid crystal derivatives of the 1,4-dihydrobenzo[e][1,2,4]triazin-4-yl, focused on achieving strong magnetic interaction. The assumption of the work was to provide valuable information how to obtain the intended magnetic and photoconductive properties by modification of the molecular structure of mesogens.pl_PL
dc.description.sponsorship1. Grant Preludium 13 (2018-2020) „Zależność stabilności fazy oraz właściwości magnetycznych w dyskotycznych pochodnych benzo[e][1,2,4]triazynylu” Narodowego Centrum Nauki. Numer Grantu: UMO-2017/25/N/ST5/01805 (jako kierownik; opiekun grantu: dr hab. Marcin Jasiński, prof. UŁ). 2. OPUS 7 (2015–2018) „Organiczne materiały półprzewodnikowe oparte o ciekłokrystaliczne rodniki werdazylowe” Narodowego Centrum Nauki. Numer Grantu: UMO-2014/13/B/ST5/04525 (jako wykonawca; kierownik grantu: prof. dr hab. inż. Piotr Kaszyński). 3. Grant Młodych (2017) „Badania nad syntezą nowych związków heterocyklicznych” Uniwersytetu Łódzkiego (jako kierownik).pl_PL
dc.language.isoplpl_PL
dc.subjectrodnikipl_PL
dc.subjectmateriały paramagnetycznepl_PL
dc.subjectrodnik 1,4-dihydrobenzo[e][1,2,4]triazyn-4-ylowypl_PL
dc.titleSamoorganizujące się materiały paramagnetyczne oparte na rodniku 1,4-dihydrobenzo[e][1,2,4]triazyn-4-ylowympl_PL
dc.typePhD/Doctoral Dissertationpl_PL
dc.page.number263pl_PL
dc.contributor.authorAffiliationUniwersytet Łódzki, Wydział Chemii, Katedra Chemii Organicznej i Stosowanejpl_PL
dc.dissertation.directorKaszyński, Piotr
dc.dissertation.reviewerGórecka, Ewa
dc.dissertation.reviewerGalewski, Zbigniew
dc.date.defence2019-09-26
dc.disciplinenauki chemicznepl_PL


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