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Aerobno jodohalogeniranje alkenov katalizirano z dušikovimi oksidi
ID Kravos, Aleksander (Author), ID Iskra, Jernej (Mentor) More about this mentor... This link opens in a new window

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Abstract
Eden izmed preferenčnih ciljev sodobne organske sinteze je razvoj okolju sprejemljivejših sinteznih metod. Osrednja tema raziskovanja diplomskega dela je bilo zato raziskati aerobno halogeniranje alkenov z reakcijskim sistemom I2/HCl/NaNO2/O2, ki temelji na aktivaciji I2 z in-situ generiranjem jodirne zvrsti HICl2 – reaktivnega jodovega(I) reagenta, kar predstavlja alternativno možnost za atomsko ekonomično in milo jodiranje organskih spojin. Uporabnost aerobnega sistema je bila podrobno raziskana na predstavnikih štirih družin alkenov, in sicer: stirenu, ciklooktenu, 1-oktenu in trans 3-heksenu. Pregledne reakcije in optimizacije potrjujejo, da jodokloriranje alkenov s HICl2 poteka po večini efektivno in selektivno. Iz dobljenega podatka o regioselektivnosti pa je za dodatek moč sklepati, da se jod v postopku elektrofilne adicije uvede kot elektrofil I+. Glavna stranska reakcija je vezava topila 2,2,2-trifluoroetanola kot nukleofila na jodonijev intermediat ter vezava vode kot nukleofila. Posebnost je transformacija 1-oktena, kjer nastaneta oba regioizomera v enakem deležu, kar je lastnost terminalnih alkenov. Za konec sem primerjal še dva sintezna pristopa. Dvostopenjska adicija s predhodno generiranim HICl2 poteka na ciklooktenu v acetonitrilu selektivneje, kot enostopenjska in-situ metoda, kjer se HICl2 tvori kar v prisotnosti alkena. To dejstvo ne drži za stiren, kjer reakcija poteka bolje na enostopenjski način. Za razliko pa poteka jodokloriranje 1-oktena in trans 3-heksena v enakih deležih ne glede na sintezni pristop.

Language:Slovenian
Keywords:halogeniranje, jodokloriranje alkenov, jodov(I) reagent, nitroksilni radikali, aerobna oksidacija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2019
PID:20.500.12556/RUL-109868 This link opens in a new window
COBISS.SI-ID:1538409667 This link opens in a new window
Publication date in RUL:09.09.2019
Views:2284
Downloads:308
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Secondary language

Language:English
Title:Aerobic iodohalogenation of alkenes catalysed by nitrogen oxides
Abstract:
One of the preferences of modern organic synthesis is to replace conventional halogenation methods with more acceptable approaches. The main research goal within this thesis was therefore to investigate aerobic iodohalogenation of alkenes with I2/HCl/NaNO2/O2 reaction system which is based on the activation of I2 by in-situ synthesis of the reactive iodine(I) species HICl2. The method consequently represents an alternative option for atomic economical and mild iodination of organic compounds. In my research, I have investigated the application of the aerobic reaction system on four types of alkenes, namely: styrene, cyclooctene, 1-octene and trans 3-hexene. In general, reviews and final optimizations proved that iodochlorination of alkenes with HICl2 is successful and mostly selective choice. From regioselectivity point of view, it can be firmly concluded that iodine in the electrophilic addition is introduced to alkene as an electrophile I+. The main side reaction was found to be the incorporation of solvent 2,2,2-trifluoroethanol as nucleophile to iodonium intermediate and incorporation of water as nucleophile. Contrary to other alkenes, in the case of 1-octene, equimolar formation of both regioisomers is preferred, which is typical for terminal alkenes. What is more, I have also compared two types of synthesis. It has been proved that two-step iodochlorination of cyclooctene with pre-generation of HICl2 leads to more selective approach than one-step in-situ method, where HICl2 is formed in the presence of alkene. In the case of styrene one-step synthesis is more efficient. Contrary, iodochlorination of 1-octene and trans 3-hexene progresses equally successful when using either one- or two-step method.

Keywords:halogenation, iodochlorination of alkenes, iodine(I) reagent, nitroxyl radicals, aerobic oxidation

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