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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Transport Properties and Novel Sensing Applications of Organic Semiconducting Crystals

Ciavatti, Andrea <1986> January 1900 (has links)
The present thesis is focused on the study of Organic Semiconducting Single Crystals (OSSCs) and crystalline thin films. In particular solution-grown OSSC, e.g. 4-hdroxycyanobenzene (4HCB) have been characterized in view of their applications as novel sensors of X-rays, gamma-rays, alpha particles radiations and chemical sensors. In the field of ionizing radiation detection, organic semiconductors have been proposed so far mainly as indirect detectors, i.e. as scintillators or as photodiodes. I first study the performance of 4HCB single crystals as direct X-ray detector i.e. the direct photon conversion into an electrical signal, assessing that they can operate at room temperature and in atmosphere, showing a stable and linear response with increasing dose rate. A dedicated study of the collecting electrodes geometry, crystal thickness and interaction volume allowed us to maximize the charge collection efficiency and sensitivity, thus assessing how OSSCs perform at low operating voltages and offer a great potential in the development of novel ionizing radiation sensors. To better understand the processes generating the observed X-ray signal, a comparative study is presented on OSSCs based on several small-molecules: 1,5-dinitronaphthalene (DNN), 1,8-naphthaleneimide (NTI), Rubrene and TIPS-pentacene. In addition, the proof of principle of gamma-rays and alpha particles has been assessed for 4HCB single crystals. I have also carried out an investigation of the electrical response of OSSCs exposed to vapour of volatile molecules, polar and non-polar. The last chapter deals with rubrene, the highest performing molecular crystals for electronic applications. We present an investigation on high quality, millimeter-sized, crystalline thin films (10 – 100 nm thick) realized by exploiting organic molecular beam epitaxy on water-soluble substrates. Space-Charge-Limited Current (SCLC) and photocurrent spectroscopy measurements have been carried out. A thin film transistor was fabricated onto a Cytop® dielectric layer. The FET mobility exceeding 2 cm2/Vs, definitely assess the quality of RUB films.
12

Progress in x-ray spectroscopies for the study of advanced materials

Amidani, Lucia <1985> 21 February 2013 (has links)
This thesis work is focused on the use of selected core-level x-ray spectroscopies to study semiconductor materials of great technological interest and on the development of a new implementation of appearance potential spectroscopy. Core-level spectroscopies can be exploited to study these materials with a local approach since they are sensitive to the electronic structure localized on a chemical species present in the sample examined. This approach, in fact, provides important micro-structural information that is difficult to obtain with techniques sensitive to the average properties of materials. In this thesis work we present a novel approach to the study of semiconductors with core-level spectroscopies based on an original analysis procedure that leads to an insightful understanding of the correlation between the local micro-structure and the spectral features observed. In particular, we studied the micro-structure of Hydrogen induced defects in nitride semiconductors, since the analysed materials show substantial variations of optical and electronic properties as a consequence of H incorporation. Finally, we present a novel implementation of soft x-ray appearance potential spectroscopy, a core-level spectroscopy that uses electrons as a source of excitation and has the great advantage of being an in-house technique. The original set-up illustrated was designed to reach a high signal-to-noise ratio for the acquisition of good quality spectra that can then be analyzed in the framework of the real space full multiple scattering theory. This technique has never been coupled with this analysis approach and therefore our work unite a novel implementation with an original data analysis method, enlarging the field of application of this technique.
13

Photoinduced electronic transitions and leakage correlation to defects/dislocations in GaN heterostructures

Pandey, Saurabh <1987> 21 February 2013 (has links)
III-nitride materials are very promising for high speed electronics/optical applications but still suffer in performance due to problems during high quality epitaxial growth, evolution of dislocation and defects, less understanding of fundamental physics of materials/processing of devices etc. This thesis mainly focus on GaN based heterostructures to understand the metal-semiconductor interface properties, 2DE(H)G influence on electrical and optical properties, and deep level states in GaN and InAlN, InGaN materials. The detailed electrical characterizations have been employed on Schottky diodes at GaN and InAl(Ga)N/GaN heterostructures in order to understand the metal-semiconductor interface related properties in these materials. I have observed the occurrence of Schottky barrier inhomogenity, role of dislocations in terms of leakage and creating electrically active defect states within energy gap of materials. Deep level transient spectroscopy method is employed on GaN, InAlN and InGaN materials and several defect levels have been observed related to majority and minority carriers. In fact, some defects have been found common in characteristics in ternary layers and GaN layer which indicates that those defect levels are from similar origin, most probably due to Ga/N vacancy in GaN/heterostructures. The role of structural defects, roughness has been extensively understood in terms of enhancing the reverse leakage current, suppressing the mobility in InAlN/AlN/GaN based high electron mobility transistor (HEMT) structures which are identified as key issues for GaN technology. Optical spectroscopy methods have been employed to understand materials quality, sub band and defect related transitions and compared with electrical characterizations. The observation of 2DEG sub band related absorption/emission in optical spectra have been identified and proposed for first time in nitride based polar heterostructures, which is well supported with simulation results. In addition, metal-semiconductor-metal (MSM)-InAl(Ga)N/GaN based photodetector structures have been fabricated and proposed for achieving high efficient optoelectronics devices in future.
14

Nanoscale-electrical and optical properties of iii-nitrides

Minj, Albert <1986> 21 February 2013 (has links)
III-nitrides are wide-band gap materials that have applications in both electronics and optoelectronic devices. Because to their inherent strong polarization properties, thermal stability and higher breakdown voltage in Al(Ga,In)N/GaN heterostructures, they have emerged as strong candidates for high power high frequency transistors. Nonetheless, the use of (Al,In)GaN/GaN in solid state lighting has already proved its success by the commercialization of light-emitting diodes and lasers in blue to UV-range. However, devices based on these heterostructures suffer problems associated to structural defects. This thesis primarily focuses on the nanoscale electrical characterization and the identification of these defects, their physical origin and their effect on the electrical and optical properties of the material. Since, these defects are nano-sized, the thesis deals with the understanding of the results obtained by nano and micro-characterization techniques such as atomic force microscopy(AFM), current-AFM, scanning kelvin probe microscopy (SKPM), electron beam induced current (EBIC) and scanning tunneling microscopy (STM). This allowed us to probe individual defects (dislocations and cracks) and unveil their electrical properties. Taking further advantage of these techniques,conduction mechanism in two-dimensional electron gas heterostructures was well understood and modeled. Secondarily, origin of photoluminescence was deeply investigated. Radiative transition related to confined electrons and photoexcited holes in 2DEG heterostructures was identified and many body effects in nitrides under strong optical excitations were comprehended.
15

Ion implantation of organic thin films and electronic devices

Scidà, Alessandra <1985> 21 February 2013 (has links)
Organic semiconductors have great promise in the field of electronics due to their low cost in term of fabrication on large areas and their versatility to new devices, for these reasons they are becoming a great chance in the actual technologic scenery. Some of the most important open issues related to these materials are the effects of surfaces and interfaces between semiconductor and metals, the changes caused by different deposition methods and temperature, the difficulty related to the charge transport modeling and finally a fast aging with time, bias, air and light, that can change the properties very easily. In order to find out some important features of organic semiconductors I fabricated Organic Field Effect Transistors (OFETs), using them as characterization tools. The focus of my research is to investigate the effects of ion implantation on organic semiconductors and on OFETs. Ion implantation is a technique widely used on inorganic semiconductors to modify their electrical properties through the controlled introduction of foreign atomic species in the semiconductor matrix. I pointed my attention on three major novel and interesting effects, that I observed for the first time following ion implantation of OFETs: 1) modification of the electrical conductivity; 2) introduction of stable charged species, electrically active with organic thin films; 3) stabilization of transport parameters (mobility and threshold voltage). I examined 3 different semiconductors: Pentacene, a small molecule constituted by 5 aromatic rings, Pentacene-TIPS, a more complex by-product of the first one, and finally an organic material called Pedot PSS, that belongs to the branch of the conductive polymers. My research started with the analysis of ion implantation of Pentacene films and Pentacene OFETs. Then, I studied totally inkjet printed OFETs made of Pentacene-TIPS or PEDOT-PSS, and the research will continue with the ion implantation on these promising organic devices.
16

Conducting Polymers as Novel Tools for Biosensing and Tissue Engineering

Marzocchi, Marco <1987> January 1900 (has links)
The field of Bioelectronics deals with the integration of electronics and biology, and possesses a tremendous potential regarding the improvement of the quality of life of millions of people. Thanks to their favorable properties, conjugated polymers have proven to be very suitable materials for the bridging of such diverse worlds. In particular, poly(3,4-ethylenedioxythiophene) poly(styrenesulfonate), or PEDOT:PSS, is nowadays considered a benchmark material for bioelectronics applications. The aim of the present work is to give a detailed characterization of the physical and electrochemical properties of PEDOT:PSS thin films, and to prove the potentialities of this material both for the sensing of bioanalytes, through the development of innovative electrochemical sensors, and for tissue engineering applications, through the development of redox-active substrates that can control the replication of living cells. In this work, the development of all PEDOT:PSS-based organic electrochemical transistors (OECTs) is presented. The sensing efficiency of these devices was optimized in terms of sensitivity and limit of detection (LOD) through the investigation of the effect of device geometry, thickness, and operating voltages. An electrochemical characterization of these devices was carried out as well, in order to clarify the processes involved in the device operation. Furthermore, the operation of these devices as electrochemical sensors was tested on several analytes, obtaining in most cases a performance suitable for real applications. The development and characterization of a different kind of devices realized using the same material, redox-active substrates for applications in tissue engineering, is then presented. The effect of a change in the redox state of these PEDOT:PSS films on cell growth is assessed using two cell lines, human dermal fibroblasts (hDF) and human tumoral glioblastoma multiforme cells (T98G), finding that the cell proliferation rate has a clear dependence on the electrochemical state of its substrate.
17

I documenti di trasporto nelle operazioni di credito documentario / Transport documents in documentary credit

Montesano, Anna <1985> January 1900 (has links)
Il presente elaborato è dedicato all’analisi della disciplina del credito documentario, in ambito interno e sovranazionale, quale sistema di pagamento ampiamente utilizzato nel commercio internazionale. La prima parte della trattazione è volta all’indagine specifica dell’operazione di apertura di credito documentario e dei benefici ad essa connessi ed analizza, in maniera approfondita, le vari fasi in cui si articola il fenomeno. La seconda parte ha ad oggetto l’analisi dettagliata delle disposizioni delle NUU 600 in materia di documenti di trasporto nell’ambito delle operazioni di credito documentario. In quest’ottica, particolare attenzione è dedicata alla natura e alle funzioni della polizza di carico (bill of lading) e alla sua rilevanza nell’ambito del commercio internazionale. Il percorso traccia poi le linee di sviluppo del dibattito sullo standard di conformità dei documenti di trasporto rispetto ai termini e alle condizioni indicati nella lettera di credito, caratterizzato dal profilarsi di due posizioni contrastanti: la tesi della strict compliance e l’opposta teoria della reasonable compliance. L’ultima parte della trattazione analizza i profili problematici connessi all’utilizzo della lettera di credito, primo fra tutti il rischio di frode documentale, ed offre un’approfondita disamina, in prospettiva comparativa, delle eccezioni al principio di autonomia del credito documentario che gli ordinamenti riconoscono a garanzia delle parti coinvolte e della sicurezza ed efficienza di tale metodo di pagamento. / The PHD Thesis is designed to outline the features of the documentary credit and the its vital role in international sales of goods. After an analysis of the letter of credit process, the thesis mainly examines the principle of autonomy of the documentary credit from the underlying contract between the seller and the buyer. References will be made to the standard for examination of transport documents for a complying presentation in accordance with the requirementes of the credit and to the different approachs in the determination of compliance. Furthermore, this thesis seeks to analyse the specific issue of the “fraud rule”, as an exception to the principles of abstraction and autonomy of the letter of credit, in the light of the interpretation of the Courts and of the provisions of the UCP (Uniform Customs and Practice for Documentary Credits) about the documents compliance, tracing the development of the fraud inquiry in the Common and Civil Law countries.
18

Organic Bulk Heterojunction Solar Cells: Materials Properties Device Stability And Performance

Tessarolo, Marta <1985> 22 February 2016 (has links)
In the field of Photovoltaic technologies the organic solar cells are particularly attractive because of their ease of processing, mechanical flexibility and potential low cost production techniques. So far, the reported efficiencies are not high enough to allow to be competitive in the market, however with the introduction of new photoactive materials, device architectures and light management structures, the power conversion efficiencies, at laboratory scale, has rapidly reached the 12%, showing a great potential and a bright future for organic solar cells. Nevertheless, in view of commercial products, two main problems are still unresolved: the relatively low performance of the modules and their lifetime. In sight of this, the present Ph.D thesis has a double goal: 1) a better understanding of the relationship between devices performance and photoactive materials structures 2) a deep investigation on device degradation processes, with particular attention on the effects induced by temperature and incident light. As a result, promising approaches to further optimize the polymer’s optoelectrial properties, and thus the corresponding device performance, are proposed. About the lifetime, first the thermal degradation mechanisms involved on the active layer was investigated and it has been demonstrated the role of the other layers and interfaces in the solar cell thermal stability. In this contest an innovative fast capacitance based thermal test has been developed in order to obtain information regarding the limit operating temperature above which the device becomes thermally unstable. In the end, a preliminary study on the photostability issue was carried out demostrating that the photodegradation of organic solar cells not depends just on the photostability of the donor polymer, but is connected also with the composition of the active layer solution and on the interaction with the adjacent layers. Solutions to limit or prevent the devices degradation processes are proposed.
19

Low-dimensional carbon allotropes: an electron microscopy investigation

Ortolani, Luca <1979> 25 May 2009 (has links)
The research reported in this manuscript concerns the structural characterization of graphene membranes and single-walled carbon nanotubes (SWCNTs). The experimental investigation was performed using a wide range of transmission electron microscopy (TEM) techniques, from conventional imaging and diffraction, to advanced interferometric methods, like electron holography and Geometric Phase Analysis (GPA), using a low-voltage optical set-up, to reduce radiation damage in the samples. Electron holography was used to successfully measure the mean electrostatic potential of an isolated SWCNT and that of a mono-atomically thin graphene crystal. The high accuracy achieved in the phase determination, made it possible to measure, for the first time, the valence-charge redistribution induced by the lattice curvature in an individual SWCNT. A novel methodology for the 3D reconstruction of the waviness of a 2D crystal membrane has been developed. Unlike other available TEM reconstruction techniques, like tomography, this new one requires processing of just a single HREM micrograph. The modulations of the inter-planar distances in the HREM image are measured using Geometric Phase Analysis, and used to recover the waviness of the crystal. The method was applied to the case of a folded FGC, and a height variation of 0.8 nm of the surface was successfully determined with nanometric lateral resolution. The adhesion of SWCNTs to the surface of graphene was studied, mixing shortened SWCNTs of different chiralities and FGC membranes. The spontaneous atomic match of the two lattices was directly imaged using HREM, and we found that graphene membranes act as tangential nano-sieves, preferentially grafting achiral tubes to their surface.
20

Proprietà meccaniche ed elettromagnetiche in miscele Al-fase ferromagnetica

Amadori, Stefano <1978> 25 May 2009 (has links)
No description available.

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