Analytical challenges in the fields of Nanobioscience and Nanobiotecnology: integrated methods for separation and characterization

Nano(bio)science and nano(bio)technology play a growing and tremendous interest both on academic and industrial aspects. They are undergoing rapid developments on many fronts such as genomics, proteomics, system biology, and medical applications. However, the lack of characterization tools for nano(bio)systems is currently considered as a major limiting factor to the final establishment of nano(bio)technologies. Flow Field-Flow Fractionation (FlFFF) is a separation technique that is definitely emerging in the bioanalytical field, and the number of applications on nano(bio)analytes such as high molar-mass proteins and protein complexes, sub-cellular units, viruses, and functionalized nanoparticles is constantly increasing. This can be ascribed to the intrinsic advantages of FlFFF for the separation of nano(bio)analytes. FlFFF is ideally suited to separate particles over a broad size range (1 nm-1 μm) according to their hydrodynamic radius (rh). The fractionation is carried out in an empty channel by a flow stream of a mobile phase of any composition. For these reasons, fractionation is developed without surface interaction of the analyte with packing or gel media, and there is no stationary phase able to induce mechanical or shear stress on nanosized analytes, which are for these reasons kept in their native state. Characterization of nano(bio)analytes is made possible after fractionation by interfacing the FlFFF system with detection techniques for morphological, optical or mass characterization. For instance, FlFFF coupling with multi-angle light scattering (MALS) detection allows for absolute molecular weight and size determination, and mass spectrometry has made FlFFF enter the field of proteomics. Potentialities of FlFFF couplings with multi-detection systems are discussed in the first section of this dissertation. The second and the third sections are dedicated to new methods that have been developed for the analysis and characterization of different samples of interest in the fields of diagnostics, pharmaceutics, and nanomedicine. The second section focuses on biological samples such as protein complexes and protein aggregates. In particular it focuses on FlFFF methods developed to give new insights into: a) chemical composition and morphological features of blood serum lipoprotein classes, b) time-dependent aggregation pattern of the amyloid protein Aβ1-42, and c) aggregation state of antibody therapeutics in their formulation buffers. The third section is dedicated to the analysis and characterization of structured nanoparticles designed for nanomedicine applications. The discussed results indicate that FlFFF with on-line MALS and fluorescence detection (FD) may become the unparallel methodology for the analysis and characterization of new, structured, fluorescent nanomaterials.

La ricerca archeologica e il regime dei ritrovamenti e delle scoperte nel sottosuolo e nei fondali marini. La disciplina del Codice tra attuazione e prospettive di riforma anche alla luce di un'analisi comparativa con l'esperienza francese e spagnola.

Il lavoro è volto all’approfondimento, anche in chiave comparatistica, della vigente normativa riguardante la tutela e la valorizzazione dei beni archeologici. Nell’ambito della disciplina predisposta nell’ordinamento italiano si sono prese le mosse dal regime delle scoperte e dei ritrovamenti, per passare successivamente all’approfondimento della tutela approntata nella legislazione nazionale anche con riferimento alle limitazioni alla libera disponibilità e circolazione. Una particolare attenzione è stata dedicata alla tutela del territorio in cui i beni archeologici sono inseriti e quindi alla tutela indiretta, ai vincoli ope legis e alla pianificazione paesaggistica, mentre una specifica trattazione ha riguardato il regime dell’archeologia preventiva e la valorizzazione e fruizione di aree e parchi archeologici nel reciproco interfacciarsi delle legislazioni regionali e delle linee guida emanate con il d.m. MiBAC 18 aprile 2012. Un’indagine articolata ha avuto per oggetto la tutela del patrimonio archeologico subacqueo e in particolare la Convenzione dell’UNESCO adottata a Parigi nel 2001, nonché la tutela sovranazionale dei beni culturali, con riferimento alla disciplina dell’Unione europea e a quella della Convenzione europea per la protezione del patrimonio archeologico del 16 gennaio 1992 e della Convenzione UNIDROIT del 24 giugno 1995 sui beni culturali rubati o esportati illegalmente. Hanno infine fatto seguito due specifiche indagini sulla tutela del patrimonio archeologico in Spagna e in Francia. Quanto alla prima si è esaminato l’attuale quadro costituzionale in cui si inserisce la tutela del patrimonio culturale con particolare attenzione alle disposizioni della Ley 16/1985 del 25 giugno 1985 e alla legislazione delle Comunidades autónomas. Per quanto riguarda la seconda una particolare attenzione è stata dedicata alla Legge 27 settembre 1941 che ha introdotto in Francia la prima disciplina organica relativa agli scavi e ai ritrovamenti archeologici. Nel quadro normativo vigente un’analisi particolareggiata è stata dedicata al Code du Patrimoine, il cui quinto libro è interamente dedicato all’archeologia.

Functional engineering of hybrid heterostructures for application in electronic, optical and optoelectronic nanostructured devices

Interfacing materials with different intrinsic chemical-physical characteristics allows for the generation of a new system with multifunctional features. Here, this original concept is implemented for tailoring the functional properties of bi-dimensional black phosphorus (2D bP or phosphorene) and organic light-emitting transistors (OLETs). Phosphorene is highly reactive under atmospheric conditions and its small-area/lab-scale deposition techniques have hampered the introduction of this material in real-world applications so far. The protection of 2D bP against the oxygen by means of functionalization with alkane molecules and pyrene derivatives, showed long-term stability with respect to the bare 2D bP by avoiding remarkable oxidation up to 6 months, paving the way towards ultra-sensitive oxygen chemo-sensors. A new approach of deposition-precipitation heterogeneous reaction was developed to decorate 2D bP with Au nanoparticles (NP)s, obtaining a “stabilizer-free” that may broaden the possible applications of the 2D bP/Au NPs interface in catalysis and biodiagnostics. Finally, 2D bP was deposited by electrospray technique, obtaining oxidized-phosphorous flakes as wide as hundreds of µm2 and providing for the first time a phosphorous-based bidimensional system responsive to electromechanical stimuli. The second part of the thesis focuses on the study of organic heterostructures in ambipolar OLET devices, intriguing optoelectronic devices that couple the micro-scaled light-emission with electrical switching. Initially, an ambipolar single-layer OLET based on a multifunctional organic semiconductor, is presented. The bias-depending light-emission shifted within the transistor channel, as expected in well-balanced ambipolar OLETs. However, the emitted optical power of the single layer-based device was unsatisfactory. To improve optoelectronic performance of the device, a multilayer organic architecture based on hole-transporting semiconductor, emissive donor-acceptor blend and electron-transporting semiconductor was optimized. We showed that the introduction of a suitable electron-injecting layer at the interface between the electron-transporting and light-emission layers may enable a ≈ 2× improvement of efficiency at reduced applied bias.