Synthesis of 5-Carbapterocarpens by α-Arylation of Tetralones Followed by One-Pot Demethylation/Cyclization with BBr3

5-Carbapterocarpens, one of them displaying estrogenic activity, were prepared from α-aryltetralones in high yields through a one-pot, BBr3-promoted O-demethylation and cyclization sequence. The key α-aryltetralone intermediates were obtained by direct α-arylation of tetralones with o-alkoxybromoarenes in the presence of Pd2(dba)3 (2.5 mol-%) and tBu3PHBF4 (10 mol-%) as catalysts, together with 2.5 equiv. of KOH in dioxane/H2O (4:1), under microwave irradiation conditions (80 W, 100 °C, 40 min), leading to α-monoaryltetralones in good yields.

Novel bio-based amine curing agents for epoxy resins: the way towards fully bio-based composite materials

Epoxy resins are widely used in many applications, such as paints, adhesives and matrices for composites materials, since they present the possibility to be easily and conveniently tailored in order to display a unique combination of characteristics. In literature, various examples of bio-based epoxy resins produced from a wide range of renewable sources can be found. Nevertheless, the toxicity and safety of curing agents have not been deeply investigated and it was observed that all of them still present some environmental drawback. Therefore, the development of new environmentally friendly fully bio-based epoxy systems is of great importance for designing green and sustainable materials. In this context, the present project aims at further exploring the possibility of using bio-based compounds as curing agents for epoxy resin precursors. A preliminary evaluation of several amine-based compounds demonstrated the feasibility of using Adenine as epoxy resin hardener. In order to better understand the crosslinking mechanism, the reaction of Adenine with the mono-epoxy compound Glycidyl 2-methylphenyl ether (G2MPE), was study by 1H-NMR analysis. Then Adenine was investigated as hardener of Diglycidil ether of bisphenol A (DGEBA), which is the simplest epoxy resin based on bisphenol A, in order to determine the best hardener/resin stoichiometric ratio, and evaluate the crosslinking kinetics and conversion and the final mechanical properties of the cured resin. Then, Adenine was tested as hardener of commercial epoxy resins, in particular the infusion resin Elan-tron® EC 157 (Elantas), the impregnation resin EPON™ Resin 828 (Hexion) and the bio-based resin SUPER SAP® CLR (Entropyresins). Such systems were used for the production of composites materials reinforced with chopped recycled carbon fibers and natural fibers (flax and jute). The thermo-mechanical properties of these materials have been studied in comparison with those ones of composites obtained with the same thermosetting resin reinforced with chopped virgin carbon fibers.

Preparation and characterization of multifunctional bio-based polymers exhibiting enhanced properties

Driven by environmental reasons and the expected depletion of crude oil, bio-based polymers are currently undergoing a renaissance in the attempt to replace fossil-based ones. The present work aims at contributing in the development of the steps that start from biomass and move to new polymeric multifunctional materials. The study focuses on two bio-based building blocks (itaconic and vanillic acids) characterized by exploitable functionalities, i.e. a lateral double bond and a substituted aromatic ring respectively, able to confer interesting properties to the final polymers. The lateral double bond of dimethyl itaconate was functionalized via thia-Michael addition reaction obtaining a thermo-stable building block that can undergo polycondensation under classical conditions of reaction. The addition of a long lateral chain allows the polymer to express antimicrobial activity against Staphylococcus aureus making it attractive for packaging and targeting antimicrobial applications. Moreover, the architecture of the homopolymer was modified by means of copolymerization with dimethyl 2,5-furandicarboxylate thus improving the rigidity and obtaining a thermo-processable material. Potential applications as thermoset or thermoplastic material have been discussed. As concerns vanillic acid, the presence of aromatic rings on the polymer backbone imparts high thermal stability, but brittle behaviour in the homopolymer. Therefore, the architecture of the polyester was successfully tuned by means of copolymerization with a flexible bio-based comonomer, i.e. ω-pentadecalactone, providing processable random copolymers. An in depth investigation of water transport mechanism has been undertaken on the synthesized polyesters. Since the copolymers present a succession of aromatic and aliphatic units, as a consequence of the chemical structure water vapor permeability interposes between polyethylene and poly(ethylene terephthalate) proving that the copolyesters are suitable for packaging applications. Moving towards a sustainable model of development, novel sustainable synthetic pathways for the eco-design of new bio-based polymeric structures with high value functionalities and different potential applications have been successfully developed.

Extraction of antioxidants from corn by-products for applications in bio-based polymer matrices

The objective of this dissertation is the evaluation of the exploitability of corn cobs as natural additives for bio-based polymer matrices, in order to hone their properties while keeping the fundamental quality of being fully bio-derived. The first part of the project has the purpose of finding the best solvent and conditions to extract antioxidants and anti-degrading molecules from corn cobs, exploiting room and high-temperature processes, traditional and advanced extraction methods, as well as polar and nonpolar solvents. The extracts in their entirety are then analysed to evaluate their antioxidant content, in order to select the conditions able to maximise their anti-degrading properties. The second part of the project, instead, focuses on assessing chemical and physical properties of the best-behaving extract when inserted in a polymeric matrix. To achieve this, low-density polyethylene (LDPE) and poly (butylene succinate – co – adipate) (PBSA) are employed. These samples are obtained through extrusion and are subsequently characterised exploiting the DSC equipment and a sinusoidally oscillating rheometer. In addition, extruded polymeric matrices are subjected to thermal and photo ageing, in order to identify their behaviour after different forms of degradation and to assess their performances with respect to synthetically produced anti-degrading additives.

Formulazione e caratterizzazione di idropitture con materie prime “Bio-Based”

The market for paint products with raw materials derived from renewable sources is growing rapidly in the building industry. When high performance in wet scrub resistance is required, “washable” paints are used. However, formulating products with Bio-Based raw materials generally results in a decrease in performances compared to similar products with raw materials from fossil sources. Therefore, a new formulation approach is needed to characterize polymeric binders from renewable sources and to consider the synergistic effects given by blends of polymeric binders of different origin and chemical structure. To date, the development of new formulations that imply less environmental impact is necessary if these products have to remain competitive in the marketplace. During the trainingship in IVAS S.p.A., washable paints with different PVC (Pigment Volume Concentration) were formulated and tested, evaluating whether the performance of paints with polymeric binders obtained from renewable sources was comparable to those with polymeric binders from fossil sources. The binders were chemically characterized by DSC, FT-IR and NMR analysis. Characterization tests of paints were focused on the evaluation of degree of whiteness, hiding power, dirt setting, and wet scrub resistance. Following the results obtained from the available binder combinations, it was possible to formulate two washable paints with comparable performances to those from fossil sources: paint A with 20 % of alkydic polymer and 80 % styrene/acrylic polymer and paint B with 40 % of alkydic polymer and 60 % styrene/acrylic polymer. Finally, the formulation was completed by adding the mainly Bio-Based derived additives generally used for this category of paints.

Sintesi e caratterizzazione di nuovi biopoliesteri aromatici a base di resorcinolo

Il lavoro di tesi si inserisce in un contesto di ricerca molto attuale, che studia la preparazione di nuovi materiali polimerici ad elevate prestazioni e derivabili da fonti rinnovabili. Partendo dal resorcinolo, una molecola che può essere ottenuta da biomassa, e dall’etilene carbonato sono state ottimizzate la sintesi e la purificazione di un diolo, l’1,3-bis(2-idrossietossi)benzene (HER), senza l’impiego di solventi e con l’utilizzo di modeste quantità di catalizzatore. L’HER è conosciuto in letteratura ma è poco studiato e non viene attualmente impiegato come monomero. In questo lavoro L’HER è stato polimerizzato in massa con una serie di diacidi (alcuni derivati da biomassa, altri provenienti da fonti fossili) sia di natura alifatica (lineari e ciclici) che di natura aromatica. Sono state analizzate la struttura chimica e le proprietà termiche dei nuovi poliesteri, in modo da definire correlazioni fra struttura e prestazioni finali. E’ stata infine messa a punto una procedura one-pot per la preparazione dei suddetti poliesteri; essa prevede la sintesi diretta dei polimeri senza lo stadio intermedio di purificazione dell’HER.

Catalytic reduction of levulinic acid derivatives to bio-fuel components

Levulinic Acid and its esters are polyfunctional molecules obtained by biomass conversion. The most investigated strategy for the valorization of LA is its hydrogenation towards fuel additives, solvents and other added-value bio-based chemicals and, in this context, heterogeneous and homogeneous catalysts are widely used. Most commonly, it is typically performed with molecular hydrogen (H2) in batch systems, with high H2 pressures and noble metal catalysts. Several works reported the batch liquid-phase hydrogenation of LA and its esters by heterogenous catalysts which contained support with Brønsted acidity in order to obtain valeric acid and its esters. Furthermore, bimetallic and monometallic systems composed by both a metal for hydrogen activation and a promoter were demonstrated to be suitable catalysts for reduction of carboxylic group. However, there were no studies in the literature reporting the hydrogenation of alkyl levulinates to 1-pentanol (1-PAO). Therefore, bimetallic and monometallic catalysts were tested for one-pot hydrogenation of methyl levulinate to 1-PAO. Re-based catalysts were investigated, this way proving the crucial role of the support for promoting the ring-opening of GVL and its consecutive reduction to valeric compounds. All the reactions were performed in neat without the need of any additional solvents. In these conditions, bimetallic Re-Ru-O/HZSM-5 afforded methyl valerate and valeric acid (VA) with a productivity of 512 mmol gmetal-1 h-1, one of the highest reported in literature to date. Rhenium can also promote the reduction of valeric acid/esters to PV through the formation of 1-pentanol and its efficient esterification/transesterification with the starting material. However, it was proved that Re-based catalysts may undergo leaching of active phase in presence of carboxylic acids, especially by working in neat with VA. Furthermore, the over-reduction of rhenium affects catalytic performance, suggesting not only that a pre-reduction step is unnecessary but also that it could be detrimental for catalyst’s activity.

In silico constraint-based strain optimization methods: the quest for optimal cell factories

Shifting from chemical to biotechnological processes is one of the cornerstones of 21st century industry. The production of a great range of chemicals via biotechnological means is a key challenge on the way toward a bio-based economy. However, this shift is occurring at a pace slower than initially expected. The development of efficient cell factories that allow for competitive production yields is of paramount importance for this leap to happen. Constraint-based models of metabolism, together with in silico strain design algorithms, promise to reveal insights into the best genetic design strategies, a step further toward achieving that goal. In this work, a thorough analysis of the main in silico constraint-based strain design strategies and algorithms is presented, their application in real-world case studies is analyzed, and a path for the future is discussed.

A general A³: coupling reaction based on functionalized alkynes

A range of hydroxypropargylpiperidones were efficiently obtained by a one-pot three-component coupling reaction of aldehydes, alkynols, and a primary amine equivalent (4-piperidone hydrochloride hydrate) in ethyl acetate using copper(I) chloride as a catalyst. The developed protocol proved to be equally efficient using a range of aliphatic aldehydes, including paraformaldehyde, and using protected and unprotected alkynols.

The design, synthesis and characterization of new building blocks for the preparation of molecule-based magnetic materials /

Two new families of building blocks have been prepared and fully characterized and their coordination chemistry exploited for the preparation of molecule-based magnetic materials. The first class of compounds were prepared by exploiting the chemistry of 3,3'-diamino-2,2'-bipyridine together with 2-pyridine carbonyl chloride or 2-pyridine aldehyde. Two new ligands, 2,2'-bipyridine-3,3'-[2-pyridinecarboxamide] (Li, 2.3) and N'-6/s(2-pyridylmethyl) [2,2'bipyridine]-3,3'-diimine (L2, 2.7), were prepared and characterized. For ligand L4, two copper(II) coordination compounds were isolated with stoichiometrics [Cu2(Li)(hfac)2] (2.4) and [Cu(Li)Cl2] (2.5). The molecular structures of both complexes were determined by X-ray crystallography. In both complexes the ligand is in the dianionic form and coordinates the divalent Cu(II) ions via one amido and two pyridine nitrogen donor atoms. In (2.4), the coordination geometry around both Cu11 ions is best described as distorted trigonal bipyramidal where the remaining two coordination sites are satisfied by hfac counterions. In (2.5), both Cu(II) ions adopt a (4+1) distorted square pyramidal geometry. One copper forms a longer apical bond to an adjacent carbonyl oxygen atom, whereas the second copper is chelated to a neighboring Cu-Cl chloride ion to afford chloride bridged linear [Cu2(Li)Cl2]2 tetramers that run along the c-axis of the unit cell. The magnetic susceptibility data for (2.4) reveal the occurrence of weak antiferromagnetic interactions between the copper(II) ions. In contrast, variable temperature magnetic susceptibility measurements for (2.5) reveal more complex magnetic properties with the presence of ferromagnetic exchange between the central dimeric pair of copper atoms and weak antiferromagnetic exchange between the outer pairs of copper atoms. The Schiff-base bis-imine ligand (L2, 2.7) was found to be highly reactive; single crystals grown from dry methanol afforded compound (2.14) for which two methanol molecules had added across the imine double bond. The susceptibility of this ligand to nucleophilic attack at its imine functionality assisted via chelation to Lewis acidic metal ions adds an interesting dimension to its coordination chemistry. In this respect, a Co(II) quaterpyridine-type complex was prepared via a one-pot transformation of ligand L2 in the presence of a Lewis acidic metal salt. The rearranged complex was characterized by X-ray crystallography and a reaction mechanism for its formation has been proposed. Three additional rearranged complexes (2.13), (2.17) and (2.19) were also isolated when ligand (L2, 2.7) was reacted with transition metal ions. The molecular structures of all three complexes have been determined by X-ray crystallography. The second class of compounds that are reported in this thesis, are the two diacetyl pyridine derivatives, 4-pyridyl-2,6-diacetylpyridine (5.5) and 2,2'-6,6'-tetraacetyl-4,4'-bipyridine (5.15). Both of these compounds have been designed as intermediates for the metal templated assembly of a Schiff-base N3O2 macrocycle. From compound (5.15), a covalently tethered dimeric Mn(II) macrocyclic compound of general formula {[Mn^C^XJCl-FkO^Cl-lO.SFbO (5.16) was prepared and characterized. The X-ray analysis of (5.16) reveals that the two manganese ions assume a pentagonal-bipyramidal geometry with the macrocycle occupying the pentagonal plane and the axial positions being filled by a halide ion and a H2O molecule. Magnetic susceptibility data reveal the occurrence of antiferromagnetic interactions between covalently tethered Mn(II)-Mn(II) dimeric units. Following this methodology a Co(II) analogue (5.17) has also been prepared which is isostructural with (5.16).

Organocatalytic tandem reactions of polyfunctional compounds for the synthesis of enantioenriched heterocycles. Reazioni tandem organocatalitiche di composti polifunzionali per la sintesi di eterocicli enantioarricchiti.

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.

Nuovi catalizzatori per la trasformazione diretta di glicerolo ad acido acrilico

Alla luce delle improrogabili necessità ambientali, le prospettive di crescita del mercato dei bio-combustibili e quindi del biodiesel, sono molto ampie; si rende quindi necessario lo sviluppo di nuovi processi chimici in grado di valorizzare il co-prodotto della sintesi del biodiesel, ovvero il glicerolo. Tra le varie opzioni proposte dalla recente letteratura scientifica e brevettuale, la trasformazione one-pot del glicerolo ad acido acrilico può rappresentare una soluzione. All’interno di questa tematica, durante il periodo di tesi ho eseguito uno studio di catalizzatori a base di ossidi misti contenenti tungsteno, molibdeno e/o vanadio. Tali ossidi presentano sia funzionalità acida, necessaria per il primo stadio di disidratazione del glicerolo ad acroleina, sia funzionalità redox, necessaria all’ossidazione dell’acroleina ad acido acrilico. I sistemi tri-componente W-V-Mo si sono rivelati catalizzatori attivi e selettivi per la sintesi diretta di glicerolo ad acido acrilico. La miglior performance catalitica di questa classe di catalizzatori ha consentito di ottenere selettività in acido acrilico del 31%, con selettività totale ad acido acrilico ed acroleina superiore al 38% (valori tra i più elevati rispetto a quelli riportati in letteratura). Infine, si è dimostrato che i catalizzatori a base di W-V-Mo sono sistemi potenzialmente sfruttabili anche in impianti a doppio stadio per la produzione di acido acrilico con alimentazioni miste propilene/glicerolo. Ulteriori studi sono attualmente in corso per approfondire le capacità catalitiche degli ossidi misti studiati.

Sintesi e caratterizzazione di nuovi copoliesteri alifatici multiblocco per applicazioni biomedicali

La ricerca nell’ambito dell’ingegneria tissutale e del rilascio controllato di farmaci ha compiuto notevoli progressi negli ultimi anni. In questo contesto, i materiali polimerici rappresentano senza dubbio la tipologia più adatta: è infatti possibile modularne piuttosto facilmente le proprietà finali per ottenere materiali con caratteristiche ad hoc per il tipo di applicazione scelta, garantendo al contempo il mantenimento di biodegradabilità e biocompatibilità, essenziali in campo biomedicale. All’interno della classe dei polimeri, i poliesteri alifatici risultano particolarmente interessanti e promettenti. Tra questi ultimi, il poli(butilene succinato) (PBS) è utilizzato soprattutto nel campo degli imballaggi biodegradabili grazie alla buona stabilità termica e alla elevata temperatura di fusione (115°C). Di contro, tale polimero è caratterizzato da tempi di biodegradazione lunghi, dovuti all’elevato grado di cristallinità (circa 45-50%), nonché da proprietà meccaniche non ottimali per alcune applicazioni. In tale contesto si inserisce il presente lavoro di tesi che ha come scopo la realizzazione di nuovi poli(esteri uretani) multiblocco a base di PBS, caratterizzati da proprietà migliorate rispetto all’omopolimero di partenza. Al fine di ottenere nuovi materiali che presentino una maggiore velocità di degradazione, combinata con un comportamento meccanico sia elastomerico che termoplastico, sono state prese in considerazione due diverse unità copolimeriche: una cosiddetta “hard” e l’altra “soft”. L’alternanza di queste due porzioni permette infatti di realizzare un polimero tenace, con una elevata temperatura di fusione (dovuta all’elevato grado di cristallinità del segmento hard), e con un basso modulo elastico ed un elevato allungamento a rottura (tipici invece del segmento soft).

Nuove vie di sintesi dell'idrossitirosolo

L’idrossitirosolo (3,4-diidrossifeniletanolo) è uno degli antiossidanti naturali più potenti e con molte proprietà benefiche sull'organismo umano ed è per questo molto pregiato. In natura, l’idrossitirosolo è presente nelle olive e in quantità maggiori nelle foglie dell’olivo. L’obiettivo di questo lavoro di tesi ha riguardato lo studio esplorativo di vie di sintesi alternative per l’idrossitirosolo che partissero da reagenti a basso costo e green, attraverso la catalisi eterogenea e utilizzando acqua come solvente. Sulla base di questi requisiti abbiamo delineato un progetto per la sintesi che, partendo dal catecolo (o dal suo omologo guaiacolo), prevede l’introduzione di una catena C2 sull’anello aromatico (reazione già nota a livello industriale per la sintesi della vanillina)seguita da una riduzione one pot del derivato mandelico a dare il prodotto di interesse, l’idrossitirosolo. L’obiettivo posto è pertanto molto ambizioso e consente di ottenere l’idrossitirosolo in soli due passaggi sintetici in catalisi eterogenea a partire da reagenti green e a basso costo.

Organotitanias: a versatile approach for band gap reduction in titania based materials

The reduction of the band gap of titania is critically important to fully utilize its photocatalytic properties. Two main strategies, i.e. doping and partial reduction of Ti(IV), are the main alternatives available to date. Herein, we report a new synthesis strategy based on one-pot co-condensation of in situ prepared polymetallic titanium-alkoxide complexes with titanium tetrabutoxide. Using this direct reaction, it is possible to introduce organic compounds in the anatase phase, causing site distortions in the crystalline structure of the network. By using this strategy, a yellow and a black titania have been produced, with the latter showing a remarkable photocatalytic activity under visible-light.