6 resultados para Olefin hydroesterification
em AMS Tesi di Laurea - Alm@DL - Università di Bologna
Resumo:
Ionic Liquids (ILs) constituted by organic cations and inorganic anions are particular salts with a melting point below 100°C. Their physical properties such as melting point and solubility can be tuned by altering the combination of their anions and cations. In the last years the interest in ILs has been centered mostly on their possible use as “green” alternatives to the traditional volatile organic solvents (VOCs) thanks to their low vapour pressure and the efficient ability in catalyst immobilization. In this regard, the subject of the present thesis is the study of the oxodiperoxomolybdenum catalyzed epoxidation of olefins in ILs media with hydrogen peroxide as the oxidant. In particular N-functionalized imidazolium salts, such as 1-(2-t-Butoxycarbonylamino-ethyl)-3-methylimidazolium (1), were synthesized with different counterions [I]-, [PF6]-, [NO3]-, [NTf2]- and [ClO4]– and tested as reaction solvents. The counterion exchange with [Cl]-, [NTf2]- and [NO3]- was also performed in unfuctionalized imidazolium salts such as 3-butyl-1-methylimidazol-3-ium (3). All the prepared ILs were tested in catalytic epoxidation of olefins exploiting oxodiperoxomolybdenum complexes [MoO(O2)2(C4H6N2)2] (4) and [MoO(O2)2(C5H8N2)2] (5) as catalysts. The IL 3[NTf2] and the catalysts 5 give rise to the best results leading to the selective formation of the epoxide of cis-cyclooctene avoiding hydrolysis side reaction. A preliminary study on the synthesis of novel NHC oxodiperoxomolybdenum complexes starting from imidazolium salts was also developed.
Resumo:
This thesis is the result of the study of two reactions leading to the formation of important heterocyclic compounds of potential pharmaceutical interest. The first study concerns the reaction of (1,3)-dipolar cycloaddition between nitrones and activated olefins by hydrogen bond catalysis of thioureas derivatives leading to the formation of a five-membered cyclic adducts, an interesting and strategic synthetic intermediate, for the synthesis of benzoazepine. The second project wants to explore the direct oxidative C(sp3)-H α-alkylation of simple amides with subsequent addition of an olefin and cyclization in order to obtain the corresponding oxazine. Both reactions are still under development.
Resumo:
The oxidation of alcohols and olefins is a pivotal reaction in organic synthesis. However, traditional oxidants are toxic and they often release a considerable amounts of by-products. Here, two IronIII-based systems are shown as oxidative catalyst, working in mild conditions with hydrogen peroxide as primary oxidant. An efficient catalytic system for the selective oxidation of several alcohols to their corresponding aldehydes and ketones was developed and characterized, [Fe(phen)2Cl2]NO3 (phen=1,10-Phenantroline). It was demonstrated that the adoption of a buffered aqueous solution is of crucial importance to ensure both considerable activity and selectivity.The Iron - Thymine-1-acetic acid in-situ complex was studied as catalyst in alcohol oxidations and C-H oxidative functionalization, involving hydrogen peroxide as primary oxidant in mild reaction conditions. The catalytic ability in alcohol oxidations was investigated by Density Functional Theory calculations, however the catalyst still has uncertain structure. The system shows satisfactory activity in alcohol oxidation and aliphatic rings functionalization. The Fe-THA system was studied in cyclohexene oxidation and oxidative halogenations. Halide salts such as NBu4X and NH4X were introduced in the catalytic system as halogens source to obtain cyclohexene derivatives such as halohydrins, important synthetic intermediates.The purpose of this dissertation is to contribute in testing new catalytic systems for alcohol oxidations and C-H functionalization. In particular, most of the efforts in this work focus on studying the Iron - Thymine-1-acetic acid (THA) systems as non-heme oxidative model, which present: •an iron metal centre(s) as a coordinative active site, •hydrogen peroxide as a primary oxidant, •THA as an eco-friendly, biocompatible, low cost coordinating ligand.
Resumo:
In this project we researched and optimized an new synthetic route for R-Equol, a molecule that is attracting increasing interest for the medicine because of its phytoestrogenic properties and the chemoprevention of breast cancer. To reach this objective we start, from smaller building blocks, with the synthesis of Daidzein followed by a chemoselective borane reduction to obtain an olefin that will be hydrogenated enantioselectively with a commercial Ir-BARF catalyst. The increasing success of these catalysts even with this genre of substrates has already given good results with different catalysts in both e.e. and yield. For further researches we deuterate the Equol in the aliphatic O-ring and attempt a secondary synthetic route with an hydrogenation using QN-modified Pd.
Resumo:
Il buon funzionamento di una qualsiasi tipologia di motore prevede l’utilizzo di un componente che abbia il compito di lubrificare le parti meccaniche in movimento, come, ad esempio, l’olio motore per l’automobile. Un fattore determinante nella scelta dell’olio è la variazione della sua viscosità in relazione alla variazione di temperatura, poiché la temperatura di esercizio di un macchinario è solitamente diversa dalla temperatura di avviamento. Tale valore viene identificato in maniera assoluta dal Viscosity Index (VI). L’olio motore è una formulazione complessa in cui sono presenti l’olio base ed una serie di additivi, tra cui molto importante è il modificatore di viscosità (Viscosity Index Improver, VII), che migliora il VI e permette di utilizzare lo stesso olio a basse ed alte temperature (olio multigrade). Come VII possono essere utilizzate diverse tipologie di polimeri solubili in olio, che variano per caratteristiche e target di mercato. La famiglia presa in esame in questa tesi è quella delle poli-alfa-olefine, utilizzate prevalentemente con oli base minerali, e più precisamente copolimeri etilene/propilene. Sono state analizzate le proprietà che questa famiglia ben nota di OCP (Olefin CoPolymer) ingenera nel sistema base-polimero. In particolare si è cercato di correlare le proprietà molecolari del polimero (composizione, peso molecolare e paracristallinità) con le proprietà “tecnologico-applicative” di ispessimento, stabilità meccanica al taglio, punto di non scorrimento, avviamento a freddo, pompabilità a freddo. L’attività è proseguita con la progettazione di un modello fisico, con l’obiettivo di predire il comportamento tecnologico del sistema olio-polimero in funzione delle proprietà molecolari di polimeri appartenenti alla classe delle poli-alfa-olefine lineari, esaminando anche le proprietà tecnologiche di un omopolimero sperimentale.
Resumo:
Cubane is a peculiar cube-shaped alkane molecule with a rigid, regular structure. This makes it a good scaffold, i.e. a molecular platform to which the substituents are arranged in a specific and fixed orientation. Moreover, cubane has a body diagonal of 2.72 Å, very similar to the distance across the benzene ring, i.e. 2.79 Å. Thus, it would be possible to use cubane as a scaffold in medicinal and material chemistry as a benzene isostere 1,2. This could lead to advantages in terms of solubility and toxicity and could provide novel properties. For this purpose, the possibility of performing “modern organic chemistry” on the cubane scaffold has to be studied. This project was entirely carried out in the framework of the Erasmus+ mobility programme at the Trinity College (Dublin, IRL) under the supervision of prof. M. O. Senge. The main goal of this project was to widen the knowledge on cubane chemistry. In particular, it was decided to test reactions that were never applied to the scaffold before, such as metathesis of 4-iodo-1-vinylcubane and Stetter reaction of 1-iodocubane-4-carboxaldehyde. These two molecules were synthesized in 10 and 9 steps respectively from commercially available cyclopentanone, following a known procedure. Unfortunately, metathesis with different olefins, such as styrene, α,β unsaturated compounds and linear α-olefins failed under different conditions, highlighting cubane behaves as a Type IV, challenging olefin under metathesis conditions. Even the employment of a specific catalyst for hindered olefins failed in the cross-coupling with linear α-olefins. On the other hand, two new molecules were synthesized via Stetter reaction and benzoin condensation respectively. Even if the majority of the reactions were not successful, this work can be seen as an inspiration for further investigation on cubane chemistry, as new questions were raised and new opportunities were envisioned.