4 resultados para Raw materials

em AMS Tesi di Laurea - Alm@DL - Università di Bologna


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In questo lavoro di tesi sono state sviluppate reazioni domino, tandem e procedure one-pot per ottenere eterocicli enatioarricchiti. Lo sviluppo di queste metodologie sintetiche è molto importante perché permettono di ottenere molecole complesse partendo da prodotti semplici, senza effettuare ripetuti passaggi di purificazione (stop-and-go or step-by-step synthesis). Lo scopo di questo lavoro è di ottenere derivati tetraidrofuranici modificati e derivati ossoazzolinici enantioarrichiti tramite reazioni SN2-Michael o tramite reazioni aldolica-ciclizzazione-Michael usando la catalisi asimmetrica a trasferimento di fase (PTC). Come catalizzatori PTC per imprimere enantioselezione sono stati utilizzati sali di ammonio quaternario derivati dagli alcaloidi della Cinchona. Sono state ottimizzate le condizioni di reazione (base inorganica, temperatura, solvente, tempo di reazione) per i diversi substrati presi in considerazione. I prodotti target sono stati ottenuti con buone rese, ottime diastereoselezioni ma con bassa enantioselezione. I risultati ottenuti richiedono un’ulteriore ottimizzazione e dovranno essere valutate variazioni strutturali dei nucleofili utilizzati. In this thesis were developed domino, tandem reactions and one-pot procedures to obtained enantioenriched heterocycles. The development of these methodologies is very fundamental because they allow to obtain complex molecules starting from raw materials, without carrying out repeated purification steps (stop-and-go or step-by-step synthesis). The purpose of this work is to obtain enantioenriched tetrahydrofuran and oxazoline derivatives through a SN2-Michael reaction or a aldol- cyclization-Michael reaction using the phase-transfer asymmetric catalysis (PTC). For imprint enantioselection we used Cinchona alkaloids quaternary ammonium salts derivatives. The reaction conditions (inorganic base, temperature, solvent, reaction time) were optimised for the different substrates taken into account. The target products were obtained with good yields, excellent diastereoselections but with low enantioselections. The obtained results require further optimization and structural changes in the nucleophiles used must be evaluated.

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Due to the high price of natural oil and harmful effects of its usage, as the increase in emission of greenhouse gases, the industry focused in searching of sustainable types of the raw materials for production of chemicals. Ethanol, produced by fermentation of sugars, is one of the more interesting renewable materials for chemical manufacturing. There are numerous applications for the conversion of ethanol into commodity chemicals. In particular, the production of 1,3-butadiene whose primary source is ethanol using multifunctional catalysts is attractive. With the 25% of world rubber manufacturers utilizing 1,3-butadiene, there is an exigent need for its sustainable production. In this research, the conversion of ethanol in one-step process to 1,3-butadiene was studied. According to the literature, the mechanisms which were proposed to explain the way ethanol transforms into butadiene require to have both acid and basic sites. But still, there are a lot of debate on this topic. Thus, the aim of this research work is a better understanding of the reaction pathways with all the possible intermediates and products which lead to the formation of butadiene from ethanol. The particular interests represent the catalysts, based on different ratio Mg/Si in comparison to bare magnesia and silica oxides, in order to identify a good combination of acid/basic sites for the adsorption and conversion of ethanol. Usage of spectroscopictechniques are important to extract information that could be helpful for understanding the processes on the molecular level. The diffuse reflectance infrared spectroscopy coupled to mass spectrometry (DRIFT-MS) was used to study the surface composition of the catalysts during the adsorption of ethanol and its transformation during the temperature program. Whereas, mass spectrometry was used to monitor the desorbed products. The set of studied materials include MgO, Mg/Si=0.1, Mg/Si=2, Mg/Si=3, Mg/Si=9 and SiO2 which were also characterized by means of surface area measurements.

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La sostituzione di materie prime provenienti da risorse fossili con biomasse rinnovabili, utilizzando un processo a basso impatto ambientale, è una delle più importanti sfide della "Green Chemistry". Allo stesso tempo, la sintesi di resine epossidiche fornisce la chiave per la realizzazione di materiali ad alto valore aggiunto. Tuttavia, ad oggi, il 90% della produzione di resine epossidiche è basato sull'uso di bisfenolo A, che ha effetti di xenoestrogeno, ed epicloridrina, tossica e cancerogena. Su queste basi, è stata individuata una strategia sintetica per la sintesi di prepolimeri innovativi per resine epossidiche, che utilizza come substrato di reazione diidrossibenzeni di origine naturale ed evita l'uso di epicloridrina e altri reagenti tossici o pericolosi. La suddetta strategia sintetica è basata sulla sequenza: allilazione dei diidrossibenzeni - epossidazione dei doppi legami ottenuti. In questa procedura non vengono utilizzati drastiche condizioni di reazione e il solvente è acqua, con una catalisi di trasferimento di fase o, in aggiunte di acetonitrile, in un sistema bifasico. La resa complessiva dei due “step” dipende dalla posizione dei due ossidrili nei diidrossibenzeni. Il reagente che porta la resa massima è l’idrochinone (1,4 diidrossibenzene), che, come riportato in letteratura, permette la formazione di resine epossidiche con proprietà simili alle resine di epicloridrina e bisfenolo A. The substitution of raw materials from fossil fuels with renewable biomass using a low environmental impact process is one of the greatest challenges of the "Green Chemistry". At the same time, the synthesis of epoxy resins provides the key to the realization of high added value materials. However, 90% of the production of epoxy resins is based on the use of bisphenol A, a xenoestrogen, and epichlorohydrin, that is toxic and carcinogenic. On these bases, a synthetic strategy for the synthesis of innovative prepolymers of epoxy resins, that uses dihydroxybenzenes of natural origin as reaction substrates and avoids the use of epichlorohydrin and other toxic or dangerous reagents has been identified. The above synthetic strategy is based on the sequence: allylation of dihydroxybenzenes - epoxidation of the double bonds obtained. In this procedure, drastic reaction conditions are dismissed and the solvent used is water with a phase transfer catalysis or, in addition, acetonitrile in a biphasic system. The overall yield of the two steps depends on the position of the two hydroxyls of the dihydroxybenzenes. The reagent that leads to the highest yield is hydroquinone (1,4 dihydroxybenzene), which, as reported in literature, allows the formation of epoxy resins with similar properties to the resins from bisphenol A and epichlorohydrin.

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Due to the limited availability of natural oil and the harmful effects of its usage, the industry has focused in searching for sustainable types of raw materials for the production of chemicals. The bioethanol, obtained by fermentation of biomass, has gained particular importance in recent years both as a biofuel, and as a “building block” molecule because it can be considered as a starting reagent to obtain other added value chemical compounds, such as ethylene, acetaldehyde, butadiene and ethyl acetate. The goal of this research was the study of the interaction of ethanol with catalysts based on TiO2-CeOX. Since the electronic properties have implications on the catalytic activity, the idea was to understand if the TiO2-CeOX systems have different reactivity from that of ceria and rutile alone, or an intermediate between them. The study was focused on the characterization of the adsorbed species on the catalysts surface after ethanol adsorption through an in-situ spectroscopic technique (DRIFTS) that allowed us to extract information that could be helpful for the understanding of the processes at the molecular level. The mass spectrometry was used to monitor on-line the desorbed products. Furthermore, reactivity tests in a flow reactor were performed, in order to verify the catalytic behavior of the samples in conditions which are more similar to those applied at an industrial scale. The samples showed to behave in different way depending on the conditions used and the thermal treatment. The particular behavior of the mixed samples with respect to the single oxides is interpreted for each case according to the spectroscopic information collected.