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dc.contributor.author	Bhosale, Dattatry Shivajirao
dc.date.accessioned	2017-09-19T08:24:34Z
dc.date.available	2017-09-19T08:24:34Z
dc.date.issued	2017
dc.date.submitted	2017-07-03
dc.identifier	Univerzitní knihovna (studovna)
dc.identifier.uri	http://hdl.handle.net/10195/69346
dc.description.abstract	Prvni .ast diserta.ni prace byla zam..ena na p.ipravu a charakterizaci recyklovatelnych katalyzator. ur.enych pro Henryho reakci. Nejprve byly p.ipraveny a charakterizovany katalyzatory zalo.ene a m..natych komplexech blokoveho kopolymeru ?ż-methoxy- poly(ethylenglykol)-b-poly(L-glutamova kyselina) s (2R, 5S)- nebo s (2S, 5S)-5-isopropyl-5-methyl-2-(pyridin-2-yl)imidazolidin-4-onem. Reakce substituovanych aldehyd. s nitromethanem katalyzovana p.ipravenymi semi-rozpustnymi katalyzatory poskytovala odpovidajici 2-nitroalkoholy s vysokymi chemickymi vyt..ky (70.98%) a vysokou enantioselektivitou (61.92% ee). Polymerni katalyzator byl jednodu.e izolovan vysra.enim z reak.ni sm.si p.idavkem diethyletheru. Vysra.eny katalyzator izolovan pomoci centrifugy a recyklovan do 10 cykl.. Dale byl p.ipraven a charakterizovan recyklovatelny katalyzator zalo.eny na m..natem komplexu magnetickych nano.astic Fe3O4@SiO2 s (2R, 5S)-5-isopropyl-5-methyl-2-(pyridin-2-yl)imidazolidin-4-onem. Katalyzator byl charakterizovan pomoci DLS, FT-IR spektroskopie, SEM a mikroanalyzou. Reakce substituovanych aldehyd. s nitromethanem katalyzovana timto heterogennim katalyzatorem poskytovala odpovidajici 2-nitroalkoholy s vysokymi chemickymi vyt..ky (88.92%) a vysokou enantioselektivitou (68.94% ee). Reak.ni rychlost byla zpomalovana v d.sledku tvorby agregovanych forem nano.astic katalyzatoru (115.834 nm), a to v zavislosti na jejich hmotnostnim obsahu v reak.nim prost.edi. Katalyzator zalo.eny na magnetickych .asticich byl jednodu.e separovan z reak.ni sm.si aplikaci externiho magnetickeho pole a recyklovan do 10 cykl.. Po desetinasobne recyklaci katalyzatoru, byl pozorovan pokles vyt..ku ( 10%), zatimco enantioselektivita byla stale vysoka ( 94% ee). Vhodnost pou.iti katalyzatoru byla ov..ena p.i p.iprav. meziproduktu ur.eneho pro syntezu le.iva (R)-Salmeterolu (72%, 91% ee). Druha .ast diserta.ni prace byla zam..ena na p.ipravu a charakterizaci cileneho konjugatu isoniazidu s magnetickymi nano.asticemi Fe3O4@SiO2 (189 ?} 3 nm). Molekuly isoniazidu byly na povrch magnetickych nano.astic navazany prost.ednictvim kovalentni pH-sensitivni imino vazby. P.ipraveny konjugat byl charakterizovan pomoci rentgenove difrakce, SEM, dynamickeho rozptylu sv.tla, infra.ervene spektroskopie a mikroanalyzy. Konjugat uvol.oval isoniazid za podminek in vitro (pH = 4; 37 ??C; t. . 115 s). Dale byla studovana toxicita konjugatu Fe3O4@SiO2-isoniazid pomoci bun.k SK-BR-3 pou.itim systemu xCELLigence.	cze
dc.format	124 s.
dc.language.iso	eng
dc.publisher	Univerzita Pardubice	cze
dc.rights	pouze v rámci univerzity
dc.subject	blokový kopolymer	cze
dc.subject	magnetické nanočástice	cze
dc.subject	chirální ligandy	cze
dc.subject	Henryho reakce	cze
dc.subject	recyklace katalyzátoru	cze
dc.subject	pH senzitivní konjugáty léčiv	cze
dc.subject	cytotoxicita	cze
dc.subject	block copolymer	eng
dc.subject	magnetic nanoparticles	eng
dc.subject	chiral ligands	eng
dc.subject	Henry reaction	eng
dc.subject	recovery of catalysts	eng
dc.subject	pH dependent drug delivery	eng
dc.subject	cytotoxicity	eng
dc.title	Selected pyridine derivatives immobilized on colloidal nanosystems for asymmetric Henry reaction and drug delivery application	eng
dc.title.alternative	Vybrané deriváty pyridinu imobilizované na koloidních nanosystémech určené pro asymetrickou Henryho reakci a cílený transport léčiv	cze
dc.type	disertační práce	cze
dc.contributor.referee	Cibulka, Radek
dc.contributor.referee	Vinšová, Jarmila
dc.date.accepted	2017-08-28
dc.description.abstract-translated	The first part of dissertation work was focus on the preparation and characterization of recoverable catalysts for a Henry reaction. First have been prepared and characterized catalysts based on a Cu(II) complexes of block copolymer ?ż-methoxypoly(ethylene glycol)-b-poly(L-glutamic acid) with (2R, 5S)- or (2S, 5S)-5-isopropyl-5-methyl-2-(pyridine-2-yl)- imidazolidine-4-one. The reaction of substituted aldehydes with nitromethane catalyzed by these prepared semi-soluble catalysts gives corresponding 2-nitroalcohols with high chemical yields (70.98%) and high enantioselectivity (61.92% ee). The polymer catalyst can be easily isolated from the reaction mixture by adding diethyl ether, catalyst was precipitate, recycled by centrifugation, and reused up to 10 cycles. Next have been prepared and characterized recoverable catalyst based on Cu(II) complex of magnetic nanoparticles Fe3O4@SiO2 with (2R, 5S)-5-isopropyl-5-methyl-2-(pyridine-2-yl)imidazolidine-4-one ligand. The prepared catalyst was characterized using DLS, FT-IR spectroscopy, SEM, and microanalysis. The reaction of substituted aldehydes with nitromethane catalyzed by this heterogeneous catalyst gives corresponding 2-nitroalcohols with high chemical yields (88.92%) and high enantioselectivity (68.94% ee). The reaction rate decreased due to the formation of aggregated form of catalyst nanoparticles whose size (115.834 nm) depends up on their content in the reaction medium. The MNPs supported catalyst can be easily isolated from the reaction mixture by external magnetic field and reused up to 10 cycles. After a tenfold recycling of the catalyst, the catalytic activity slightly decreases ( 10%); however, no change in enantioselectivity was observed ( 94% ee). The efficiency of the catalyst was also verified in the preparation of an intermediate of synthesis of the medical drug (R)-Salmeterol (72%, 91% ee). The second part of dissertation work was oriented to preparation and characterization conjugate of isoniazid with magnetic nanoparticles Fe3O4@SiO2 (189 ?} 3 nm) as a drug delivery system. The molecules of isoniazid were attached to the surface of nanoparticles by a covalent pH-sensitive imine bond. The conjugate was characterized by X-ray diffraction, SEM, dynamic light scattering, IR spectroscopy and microanalysis. The conjugate released isoniazid under in vitro conditions (pH = 4; 37 ??C; t. . 115 s). In addition, the cytotoxicity of the Fe3O4@SiO2-isoniazid was evaluated in SK-BR-3 cell using the xCELLigence system.	eng
dc.description.department	Fakulta chemicko-technologická	cze
dc.thesis.degree-discipline	Organic Chemistry	cze
dc.thesis.degree-name	Ph.D.
dc.thesis.degree-grantor	Univerzita Pardubice. Fakulta chemicko-technologická	cze
dc.identifier.signature	D36785
dc.thesis.degree-program	Organic Chemistry	cze
dc.identifier.stag	32321
dc.description.grade	Dokončená práce s úspěšnou obhajobou	cze

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