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LA CATTEDRALE DI SAN SABINO A CANOSA «[…] ad sedem pontificalem canusinae urbis corpus Christi famuli introducere studuit[…]; qui a sede, ad quam omnes convenire consueverant, puto, mille passibus distabat […]»
DOTTORATO CON BORSA DI STUDI
Financial education as a new dimension of human capital: empirical findings from a randomized experiment and on the nexus between financial crises and financial literacy
The financial and economic crisis has increased the attention of academicians and policymakers on the importance of economic and financial literacy. This paper provides a synthesis of a PhD dissertation on topics related to financial education as a specific field of the more general issue of human capital and socioeconomic wellbeing.
The first and second part of the dissertation present and discuss results from a randomized experiment on financial education run on secondary-school classes in three Italian cities. The findings obtained document the benefits of financial education, especially when the outcomes are distinguished by learning topic. Students in fact, significantly improve their knowledge on issues concerning institutional finance and macroeconomics, but not on ones concerning everyday life economics.
The third part documents that people have searched more intensively the Internet for answers to their economic and financial questions during the period of financial crisis. Hence, the financial crisis itself proved to be an occasion enhancing the interest in financial and economic issues with consequences on financial literacy, especially for the part more directly related to the crisis itself.A synthesis version of thesis in english is available upon reques
Evoluzione clinica della Coroidite Serpiginosa e correlazione con l'infezione tubercolare
Prospettive illusorie nei cortili di palazzi storici: analisi, interpretazione e valorizzazione. Il fondale scenografico dipinto da Antonio Galli Bibiena a Bologna
Niccolò Toppi attraverso il tempo: integrazioni alla "Biblioteca napoletana"
La tesi rappresenta un aggiornamento del repertorio bio-bibliografico edito a Napoli nel 1678 da Niccolò Topp
New Belgrade - between utopia and pragmatism
The research explores how modern architecture responded to the political and ideological demands in former Yugoslavia, and how it has shaped the urban territory of newly formed city of New Belgrade. New Belgrade was conceived as a new capital city of Yugoslavia, in the second half of the 20th century – on an empty field between two important regional cities - Belgrade and Zemun. Historically speaking, this empty flood plain functioned as a border and sanitary cordon, which was supervised and controlled as a “no-contact” zone between Belgrade, as the ultimate point of the Orient and the town of Zemun, a small but yet important Austro-Hungarian port on the Danube. From the very beginning planned as a modern city, it’s one of the early realizations of a modern city in the world in general and the unique example of a modern city on a large area - not in the periphery but in the city center, between two historic cores. With its significant size and vastness (over 40 sq km and a population of about 250,000), grand boulevards and massive buildings grouped into numerically marked blocks, it’s a mixture of a modernist vision and a socialist planning, far larger than any comparable urban district in Central and Eastern European cities. Once emerged from the »conflict between the two dominant ideologies of the postwar period: the modernist, or CIAM’s dogma of functional city and political, Marxist – socialist dogma, in the context of the ruling system« (Blagojevic, 2004) – today, after complete change of paradigm, is heading again towards a very dynamic and rapid construction. However, although recognized as a place of potential new development, the lack of critical review, evaluation and long-term strategies threatens its structure to be, to a certain extent, perceived only as a physical residue of the previous system, or as its ideological monument. Despite the occasional interest of the critics and the press, international mapping and interpretation of modern architecture in Yugoslavia and New Belgrade was almost completely overlooked. On the other hand, after the traumatic collapse of the Federation and repeated search for its lost identity local critics left New Belgrade without proper review, evaluation or even exact findings about its history. The general tendency of moving towards liberal capitalism creates, we might say, an a priori hostile environment towards a socialist period and its legacy, once again trying to ignore history. Therefore, this thesis is an attempt to reconstruct not only the history of construction of New Belgrade but also its meaning and its place in the international map of modernism
Scanning Probe Microscopies for the Study at Nanoscale of Nanomaterials and Nanosystems:
Magnetic nanomaterials due to their various features different from the ordinary bulk matter in their mechanical, thermal, magnetic, optical properties, are attracting more and more attention in both theoretical research and practical applications in various fields.
Magnetic nanoparticles (MNPs) are a very important branch of magnetic nanomaterials due to their nanoscale sizes, being relatively long in vivo half-life and limited agglomeration. These make them ideal for biomedical applications such as magnetic labeling, hyperthermia cancer treatment, targeted drug delivery, and contrast enhancement agents in magnetic resonance imaging (MRI). In drug delivery applications, MNPs can be determined with high accuracy [1]. It would be of interest to localize and characterize MNPs at the nanoscale for biological applications. However, very limited studies exist on detecting and characterizing the magnetic signals of nanoparticles in biological science.
Many methods in surface structure analysis are used as nano-characterization techniques, such as transmission electron microscopy (TEM), scanning electron microscopy (SEM), field electron microscopy (FEM), field ion microscope (FIM), low energy electron diffraction (LEED), Auger electron spectroscopy (AES), photoelectron spectroscopy (ESCA) and electron probe. These techniques detect the surface or interface to show the physical and chemical properties at the nanoscale. But any kind of these techniques has the limitations of one kind or another. For example, LEED and X-ray diffraction method require that the sample has a periodic structure; the resolution of optical microscopy and SEM are insufficient to distinguish surface atoms; high-resolution TEM is mainly used for thin bulk samples and interfacial studies to detect the magnetic properties, but the sample preparation process to get cell sections for TEM analysis is time consuming, and only a small part of cell section can be analyzed; FEM and FIM can only detect the tip radius of less than 100 nm of the atomic structure in two-dimensional geometry. Most commonly, studies which analyze the magnetic nature of MNPs use a superconducting quantum interference device (SQUID) and vibrating sample magnetometer (VSM). But due to low sensitivity and ultimately poor accuracy neither is an appropriate technique to measure the magnetic moment of individual MNPs, whatever in air or in liquid environment.
Proper characterization and monitoring the properties of MNPs system are important for their potential applications. Currently, one of the most common methods for intracellular imaging of magnetic nanoparticles is fluorescence microscopy [2]. A disadvantage of this technique is that nanoparticles must first be labeled with fluorescent probes in order to be visualized. Due to the inherent limitations, the resolution of optical instruments is restricted by the wavelength of the light [3]. In 2010, Sun et al. conjugated fluorescent probes to the surface of magnetic nanoparticles to map cellular uptake pathways [4]. Relative to fluorescence microscopy, two-photon microscopy (TPM) offers improved resolution to study cellular interactions with magnetic nanoparticles, requiring the particles to be labeled with a two-photon fluorescent dye [5]. However it has been known that the imaging depth in TPM cannot be increased indefinitely, meanwhile optimization of the two-photon excitation efficiency is limited by the degree of damage the specimen can tolerate [6]. Due to the relatively poor resolution and reliability of these techniques, scanning probe microscopes (SPM) emerged out. SPM is a generation of scanning tunneling microscope based on a variety of new probe microscopes, such as atomic force microscopy (AFM), lateral force microscopy (LFM) and electrostatic force microscope (EFM). Among these techniques magnetic force microscope (MFM), a label-free in vitro detection method for magnetic materials, has the capability to detect nanoscale magnetic domains and simultaneously obtain atomic force microscopy topography images. Due to its ability to localize, characterize and distinguish magnetic materials from other materials at the nanoscale, as well as the advantage of three-dimensional information, MFM offers the great potential for the in vivo research.
The scope for MFM lies in detecting the presence of magnetic nanomaterials and spatially localizing magnetic domains. It is likely that magnetic nanomaterials (occur in clusters or aggregates) are embedded in a biological matrix to different depth, and surrounded by bio-molecules. The development and application of MFM for detecting MNPs hold great promise in biology. Spatially localizing magnetic plaques, at nanometer resolution in ambient atmospheric environment, will provide a better understanding of the deposition mechanism of magnetic material derivatives in the biological tissues.
The background on magnetic materials and nanoparticles is presented in chapter 1 and AFM/MFM experimental apparatus and technique is illustrated in chapter 2. In the last three chapters of the thesis the results of three different typologies of experiments are reported. The studies I have conducted are developed in the framework of the research activities of the laboratory of Scanning Probe Microscopy of EMiNaLab (coordinator prof. Marco Rossi), at the Department of Basic and Applied Sciences for Engineering of Sapienza University of Rome.
In particular, in Chapter 3, we investigate bacterial biofilms at the first time, which are colonies of microbes embedded in a self-produced exopolysaccharides extracellular matrix presenting a major concern in health care. We will demonstrate an approach based on magnetic force microscopy to perform accurate measurement of the thickness of soft thin films - although it may easily extended even to stiff films - deposited on periodically patterned magnetic substrates. By detecting the biofilm thickness MFM will provide a novel method to study the thin film.
In the second part of the thesis, MFM is applied to visualize and quantitatively measure magnetically labeled vesicular system. Vesicles containing magnetic nanoparticles as magnetic target carrier can be used for a wide range of biological application. The encapsulation of drugs in vesicles can minimize drug degradation and inactivation by increasing drug bioavailability and targeting to the pathological area. Many different non-contact techniques have been proposed. Nevertheless, MFM has never been used to study vesicular systems embedding MNPs, either qualitatively or quantitatively. MFM will be illustrated to evaluate the amount of MNPs incorporated in single vesicle, together with discussion on its merits and possible sources of uncertainty.
In the last part of the thesis, we developed the capability of AFM/MFM to detect magnetically labeled materials of biological interest, which are magnetoferritin, APTES functionalized Fe3O4 nanoparticles and cells labeled Fe@Au nanoparticle. AFM/MFM will allow us to detect magnetic nanoparticles within submembranes and without severe deformation of samples. In our study, We expect to demonstrate the potential of MFM for the study of magnetic properties of different nano-biosystems, illustrating our approaches which aim at deducing quantitative information from MFM characterizations. Such a research is useful for future applications of MFM, indicating the potential to image magnetic nanoparticles unlabelled and unmodified in living cellular systems.
The overall target of the thesis is to develop and standardize reliable innovative protocols, using scanning probe microscopy-based techniques that could be implemented in rapid and early theranostic methods.Marco Rossi, Daniele Passeri, Erusmus schorlarshi
L'evoluzione del genere Canis (Carnivora, Canidae, Caninae) in Italia dal wolf-event a oggi: implicazioni biocronologiche, paleoecologiche e paleoambientali
Il presente lavoro consiste nella revisione sistematica delle appartenenti al genere Canis presenti in Italia dalla loro comparsa all'attuale. I principali apporti di questa tesi riguardano la prima descrizione formale di C. etruscus e il suo ruolo a livello paleoecologico, la definizione dello status di C. mosbachensis e un apporto alla conoscenza della sua variabilità, nuovi dati sulla variabilità delle popolazioni fossili di C. lupus