70 research outputs found

    Excitation Wavelength- and Medium-Dependent Photoluminescence of Reduced Nanostructured TiO2 Films

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    The performance of TiO2 nanomaterials in solar energy conversion applications can be tuned by means of thermal treatments in reducing atmospheres, which introduce defects (such as oxygen vacancies), allowing, for instance, a better charge transport or a higher photocatalytic activity. The characterization of these defects and the understanding of their role are pivotal to carefully engineer the properties of TiO2, and, among various methods, they have been addressed by photoluminescence (PL) spectroscopy. A definitive framework to describe the PL properties of TiO2, however, is still lacking. In this work, we report on the PL of nanostructured anatase TiO2 thin films, annealed in different atmospheres (oxidizing and reducing), and consider the effects of different excitation energies and different surrounding media on their PL spectra. A broad PL signal centered around 1.8–2.0 eV is found for all the films with UV excitation in air as well as in vacuum, while the same measurements in ethanol lead to a blueshift and to intensity changes in the spectra. On the other hand, measurements with different sub-bandgap excitations show PL peaking at 1.8 eV, with an intensity trend only dependent on the thermal treatment and not on the surrounding medium. The results of PL spectroscopy, together with electron paramagnetic resonance spectroscopy, suggest the critical role of oxygen vacancies and Ti3+ ions as radiative recombination centers. The complex relationship between thermal treatments and PL data in the explored conditions is discussed, suggesting the importance of such investigations for a deeper understanding on the relationship between defects in TiO2 and photoactivity

    The key role of interband transitions in hot-electron-modulated TiN films

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    Titanium nitride (TiN) is an emerging new material in the field of plasmonics, both for its linear and nonlinear optical properties. Similarly to noble metals, like, e.g., gold (Au), the giant third-order optical nonlinearity of TiN following excitation with fs-laser pulses has been attributed to the generation of hot electrons. Here we provide a numerical study of the Fermi smearing mechanism associated with photogenerated hot carriers and subsequent interband transitions modulation in TiN films. A detailed comparison with Au films is also provided, and saturation effects of the permittivity modulation for increasing pump fluence are discussed

    Unfolding the Origin of the Ultrafast Optical Response of Titanium Nitride

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    Ultrafast plasmonics is driving growing interest for the search of novel plasmonic materials, overcoming the main limitations of noble metals. In this framework, titanium nitride (TiN) is brought in the spotlight for its refractory properties combined with an extremely fast electron-lattice cooling time (<100 fs) compared to gold (approximate to 1 ps). Despite the results reported in literature, a clear-cut explanation of the origin of the ultrafast and giant optical response of TiN-based materials upon excitation with femtosecond laser pulses is still missing. To address this issue, an original model is introduced, capable of unfolding the modulation of TiN optical properties on a broad bandwidth, starting from the variations of electronic and lattice temperatures following ultrafast photoexcitation. The numerical analysis is validated on ultrafast pump-probe spectroscopy experiments on a simple structure, a TiN film on glass. This approach enables a complete disentanglement of the interband and intraband contributions to the permittivity modulation. Moreover, it is also shown that, varying the synthesis conditions of the TiN film, not only the static, but also the dynamical optical response can be efficiently tuned. These findings pave the way for a breakthrough in the field: the design of TiN-based ultrafast nanodevices for all-optical modulation of light

    Distribution of killer cell immunoglobulin-like receptors genes in the Italian Caucasian population

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    BACKGROUND: Killer cell immunoglobulin-like receptors (KIRs) are a family of inhibitory and activatory receptors that are expressed by most natural killer (NK) cells. The KIR gene family is polymorphic: genomic diversity is achieved through differences in gene content and allelic polymorphism. The number of KIR loci has been reported to vary among individuals, resulting in different KIR haplotypes. In this study we report the genotypic structure of KIRs in 217 unrelated healthy Italian individuals from 22 immunogenetics laboratories, located in the northern, central and southern regions of Italy. METHODS: Two hundred and seventeen DNA samples were studied by a low resolution PCR-SSP kit designed to identify all KIR genes. RESULTS: All 17 KIR genes were observed in the population with different frequencies than other Caucasian and non-Caucasian populations; framework genes KIR3DL3, KIR3DP1, KIR2DL4 and KIR3DL2 were present in all individuals. Sixty-five different profiles were found in this Italian population study. Haplotype A remains the most prevalent and genotype 1, with a frequency of 28.5%, is the most commonly observed in the Italian population. CONCLUSION: The Italian Caucasian population shows polymorphism of the KIR gene family like other Caucasian and non-Caucasian populations. Although 64 genotypes have been observed, genotype 1 remains the most frequent as already observed in other populations. Such knowledge of the KIR gene distribution in populations is very useful in the study of associations with diseases and in selection of donors for haploidentical bone marrow transplantation

    Autopsy as a site and mode of inquiry: de/composing the ghoulish hu/man gaze

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    For centuries the autopsy has been a key technology in Western culture for generating clinical/medical as well as cultural knowledge about bodies. This article hails the anato-medical autopsy as a generative trope and apparatus in reconfiguring Western humanist knowledge of bodies and bodies of knowledge and takes up the possibilities of working with the concept of autopsy in disrupting qualitative research methodology. In doing so, the article outlines and returns (to) a series of research-creation experiments assembled at an academic conference, which engaged with the challenges for social science knowledge laid out by Law’s (2004) After Method book. Our research-creation experiments centred autopsy as a theoretical-methodological gaze and apparatus for de-composing qualitative research methodology by engaging with post-humanist and new material feminist thinking

    Attivit\ue0 di Plodia interpunctella(Hbn.) nelle fasi di produzione e stoccaggio di un prodotto dolciario

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    Various aspects concerning possible infestations of Plodia interpunetella (Hbn.) in a confectionery product (panforte) have been evaluated, such as: susceptibility of ingredients and finished product, survival of eggs inside the packing, and resistance of the package to the insect attack. P. interpunctella shows a strong ability to develop on almonds and pistachios while it cannot reach the adult stage on candies, powdered sugar and spices mixture. Therefore, panforte without candies and the one without dusting with powdered sugar are the most susceptible to the development of the moth, compared to the traditional one. Survival of the eggs, during the cooling phase, is observed when the temperature of panforte surface is 40\ub0C. The packing of panforte is composed of: a primary wrapping of polycoupled [PET(12\u3bcm)-Al(8,5\u3bcm)-LDPE (60\u3bcm)]; a box in thin cardboard; a thermoretractable covering (PVC). Packaging in polycoupled shows a sufficient mechanical resistance if attacked from outside, while it can be pierced from inside near the welds. The outer covering in PVC, if properly welded, prevents larvae from entering
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