639 research outputs found

    Electronic and spectral properties of clean and C60-covered atom-thick Chromium oxide at the Fe(001) surface

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    Chemisorption of a single atomic layer of oxygen on the Fe(001) surface yields a highly ordered and reproducible benchmark substrate [1] for theoretical and experimental studies, and for the epitaxial growth of metal oxides, including atom-thick CrxOy layers, and hybrid interfaces with foreseen applications e.g. in organic spintronics. This talk initially presents ab initio investigations that have supplemented microscopy and spectroscopy experiments of the electronic and magnetic properties of two-dimensional Chromium oxides of Cr3O4 and Cr4O5 stoichiometry grown on Fe(001), featuring antiferromagnetic magnetic configurations with underlying Fe(001) [2,3]. Despite Cr / CrO systems are notoriously difficult for mean field approaches, generalized-gradient results are found to explain most experimental findings, with a rigid shift of oxygen bands accounting for electronic correlation effects. We eventually consider the effect of inserted Cr4O5 layers at the interface between the prototypical C60 organic semiconductor and Fe(001), which is shown to enhance the magnetic hybridization between the molecule and the surface through x-ray magnetic circular dichroism (XMCD) [4,5]. By means of ab initio calculation we characterize the local interface morphology, the magnetic configuration of the surface and the induced spin dependent electronic properties of the molecule, the latter reflecting the magnetic electronic properties of the surface at the relevant energy range. As seen from the substrate, adsorbates can influence the magnitude and even orientation of surface Cr magnetic moments. The interest in this interface is then twofold: on one side the thin magnetic oxide allows tailoring the magnetic properties of the organic layer, on the other side the adsorption of C60 can be envisioned as a tool to control the magnetic ordering of Cr atoms at the interface. [1] A. Picone, M. Riva, A. Brambilla, A. Calloni, G. Bussetti, M. Finazzi, F. Ciccacci, L. Duò, Surface Science Reports 71, 32 (2016). [2] A. Picone, G. Fratesi, M. Riva, G. Bussetti, A. Calloni, A. Brambilla, M. I. Trioni, L. Duò, F. Ciccacci, and M. Finazzi, Phys. Rev. B 87, 085403 (2013). [3] A. Calloni, G. Fratesi, S. Achilli, G. Berti, G. Bussetti, A. Picone, A. Brambilla, P. Folegati, F. Ciccacci, and L. Duò, Phys. Rev. B 96, 085427 (2017). [4] A. Brambilla, A. Picone, D. Giannotti, A. Calloni, G. Berti, G. Bussetti, S. Achilli, G. Fratesi, M. I. Trioni, G. Vinai, P. Torelli, G. Panaccione, L. Duò, M. Finazzi, and F. Ciccacci, Nano Lett. 17, 7440 (2017). [5] A. Brambilla, A. Picone, S. Achilli, G. Fratesi, A. Lodesani, A. Calloni, G. Bussetti, M. Zani, M. Finazzi, L. Duò, and F. Ciccacci, Journal of Applied Physics 125, 142907 (2019)

    Observation of charge transfer cascade in α-Fe2O3/IrO2 photoanodes by in-operando X-rays absorption spectroscopy

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    In this work we show the direct observation, by means of spectro-photoelectrochemical experiments, of charge transfer between a semiconductor (-Fe2O3) and a metal oxide overlayer (hydrous IrOx) as a photoanode architecture in photoelectrochemical water splitting.1 The aim is to clarify the ambiguous role of oxygen evolving catalysts used as overlayers on top of photoanodes in photoelectrochemical water splitting cells. Previous literature suggested that the real benefit of covering hematite with overlayers like iridium or cobalt oxides is not due to an increase of reaction kinetics but the decrease of the electron density in the hematite2 or the storage of photogenerates holes.3 These effects are likely more important when hydrous overlayer, that can act as adapting catalysts,4 are considered. All these hypothesis can explain the observed improved hole lifetime and reduce recombination with electrons. The present experimental approach is similar to the one that allowed our recent disclosure of the oxidation states assumed by hydrous IrOx as catalyst for water oxidation.5 In the present case, FEXRAV6 and XANES have been used to probe changes in the charge state of Ir while the hematite was illuminated with 410nm radiation. Thanks to this in-operando setup, we were able to observe an increase of the density of empty Ir 5d states during hematite illumination and in correspondence of water spitting in the photoelectrochemical cell. The main conclusion is that a charge (hole) transfer between hematite and iridium occurs only when the hematite is illuminated. Hydrous iridium oxide is therefore capable of withdrawing holes from the semiconductor thus increasing the probability of interface reaction rather than charge recombination. 1 Minguzzi A., Lugaresi O., Achilli E., D'Acapito F., Naldoni A., Malara F., Locatelli C., Vertova A., Rondinini S., Ghigna P., In preparation 2 Badia-Bou L., Mas-Marza E., Rodenas P., M. Barea E., Fabregat-Santiago F., Gimenez S., Peris E., Bisquert J., J. Phys. Chem. C, 2013, 117, 3826−3833 3 Lin F., Boettcher S.W. Nature Materials, 2014, 13, 81-86 4 Barroso M., Mesa C.A., Pendlebury S.R. , Cowana A.J., Hisatomi T., Sivula K., Grätzel M., Klug D.R., Durrant J.R. PNAS, 2012, 109, 15640–15645 5 Minguzzi A., Lugaresi O., Achilli E., Locatelli C., Vertova A., Ghigna P., Rondinini S., Chem. Sci., 2014, 5, 3591-3597 6 Minguzzi, A.; Lugaresi, O.; Locatelli, C.; Rondinini S.; d'Acapito, F.; Achilli, E.; Ghigna, P. Anal. Chem. 2013, 85, 7009-7013

    Electro- and photo-electrochemical water splitting as studied by In-Operando X-Rays Absorption Spectroscopy

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    In this work we show our most recent results obtained by in-operando X-Ray absorption spectroscopy on hydrous/amorphous [1] and on crystalline/dry [2] iridium oxide electrodes as electrocatalysts for the oxygen evolution reaction (OER). In all cases, XAS evidenced the role of Ir active sites, and the relevant oxidation states assumed during the catalytic cycle. Moreover, the local structure is not significantly influenced by the applied potential, thus suggesting a negligible reorganization energy of the catalyst.On the bases of these results, we were able to directly observe, by means of spectro-photoelectrochemical experiments, the charge transfer between a semiconductor (α-Fe2O3) and hydrous IrOx, the latter used as overlayer for generating a high performance photoanode architecture in photoelectrochemical water splitting[3]. The aim is to clarify the ambiguous role of oxygen evolving catalysts used as overlayers on top of photoanodes in photoelectrochemical water splitting cells. Previous literature suggested that the real benefit of covering hematite with overlayers like iridium or cobalt oxides is not due to an increase of the reaction rate but to a decrease of the electron density in the hematite[4] or to the storage of photogenerates holes[5]. These effects are likely more important when hydrous overlayer, that can act as adapting catalysts[6], are considered. All these hypotheses can explain the observed improved hole lifetime and reduce recombination with electrons. The experimental approach is similar to the one adopted to study Ir oxide particles electrocatalysts[1,2]. In the present case, FEXRAV [7] and XANES have been used to probe changes in the charge state of Ir while the hematite was illuminated with a 410nm diode. Thanks to this setup, we were able to observe an increase of the density of empty Ir 5d states during hematite illumination and in correspondence of water spitting in the photoelectrochemical cell. The main conclusion is that a charge (hole) transfer between hematite and iridium occurs only when the hematite is illuminated. Hydrous iridium oxide is therefore capable of withdrawing holes from the semiconductor thus increasing the probability of interface reaction rather than charge recombination. References [1] A. Minguzzi, O. Lugaresi, E. Achilli, C. Locatelli, A. Vertova, P. Ghigna, Rondinini S., Chem. Sci., 2014, 5, 3591-3597 [2] A. Minguzzi, C. Locatelli, O. Lugaresi, E. Achilli, G. Cappelletti, M. Scavini, M. Coduri, P. Masala, B. Sacchi, A. Vertova, P. Ghigna, S. Rondinini, submitted [3] A. Minguzzi, O. Lugaresi, E. Achilli, F. D'Acapito, A. Naldoni, F. Malara, C. Locatelli, A. Vertova, S. Rondinini, P. Ghigna, In preparation [4] M. Barroso, C.A. Mesa, S.R. Pendlebury, A.J. Cowana, T. Hisatomi, K. Sivula, M. Grätzel, D.R. Klug, J.R. Durrant PNAS, 2012, 109, 15640–15645 [5] L. Badia-Bou, E. Mas-Marza, P. Rodenas, E M. Barea., F. Fabregat-Santiago, S. Gimenez, E. Peris, J. Bisquert, J. Phys. Chem. C, 2013, 117, 3826−3833 [6] F. Lin, S.W. Boettcher Nature Materials, 2014, 13, 81-86 [7] A. Minguzzi, O. Lugaresi, C. Locatelli, S. Rondinini, F. d'Acapito, E. Achilli, P. Ghigna, Anal. Chem. 2013, 85, 7009-7013

    Il cammino interiore nel ciclo Palimpsesty di Vasyl' Stus

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    The Author translates and discusses some poems from Vasyl’ Stus’s collection Palimpsesty. The work of this major Ukrainian poet, who died in a Soviet prison in 1985, is almost unknown in Italy, while his fame in other countries is linked mainly to his dissident activity, which has been the cause of his somewhat narrow reception as a fi ghter-poet. Stus’s literary achievements are rooted in the wide tradition of European poetry and thought. The Author presents those poems, in which the lyrical subject focuses on himself and on the exploration of his inner world, condensing it in spatial and geometrical forms. The peculiar imagery of this poetic world, which is reduced to a small number of obsessively recurring motifs, is also examined. The Author hopes to arouse curiosity and interest in this little studied chapter of the Ukrainian-Slavic-European poetic history of the Twentieth century

    The Lyrical Subject as a Poet in the Works of M. Cvetaeva, B. Pasternak, and R.M. Rilke

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    The author discusses the image of the poet in Marina Cvetaeva’s, Boris Pasternak’s and Rainer Maria Rilke’s production. A shared feature of their poetry is the clear identification of the lyrical subject with a poet. Though critical studies on the three poets have clarified many aspects of their human and literary encounter, a comparative approach to their lyrical subjects is still missing. The analysis shows a high degree of similarity between Pasternak’s and Rilke’s subjects, while Cvetaeva’s seems to be rather distinct from them. This study is divided into two main parts. The first focuses on the lyrical subject’s relation to reality, while the second delves into the very ontological nature of the subject, analysing the possibility of his/her comparticipation to mankind or his/her inborn difference from it

    Vertical movements along the northwestern side of Messina straits, in the 1967-1970 period

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    The results of a comparison of the spirit levelling data made by I.G.M. in 1967<br />and in 1970, are presented. An analysis of these data shows that the altitude<br />variations of bench marks in the considered triennial period seem to originate from<br />the collective rotation of an inclined plane, which intersects the geoid surface with<br />an azimuth of 43° to the North.<br />This is in accordance with the orientation of the fault pattern given by local<br />geology.<br />The fact that the existing bench marks were sited along the coastline, and the<br />lack of a comparison with data relative to motion on more compact geological<br />structures, lead necessarily to provisional conclusions

    Individual, yet collective voices: polyphonic poetic memories in contemporary Ukrainian literature

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    Questo articolo analizza la memoria polifonica nelle opere recenti di Serhij Žadan e Marianna Kijanovs'ka, due importanti scrittori ucraini contemporanei. Prima di concentrarsi su Žadan e Kijanovs'ka, vengono analizzati alcuni testi poetici di altri scrittori contemporanei in cui la memoria è tematizzata al crocevia di individualità e collettività. Nelle sue ultime raccolte, Žadan tende a modellare il suo universo poetico attorno a un soggetto lirico intento a raccogliere voci e memorie con l'obiettivo di preservarle dall'oblio. La raccolta del 2017 di Kijanovs'ka, Babyn Iar: Holosamy, è costituita da frammenti di memoria espressi dalle varie voci che costituiscono il suo soggetto collettivo, le vittime della tragedia di Babyn Jar del 1941. Nonostante la differenza tra questi due modelli di polifonia poetica, il primo veicolato attraverso la mediazione di un soggetto lirico e il secondo espresso direttamente dalle singole voci, questo articolo cerca di mostrare come la poesia recente di Žadan e Kijanovs'ka riesca a coniugare con successo la singolarità della memoria individuale con l'esperienza collettiva. La memoria poetica polifonica può oltretutto essere letta come una strategia per superare l'opposizione tra l'approccio “populista” e quello “modernista” alla letteratura che ha segnato l'autopercezione della letteratura ucraina fin dai primi anni del Novecento.This article analyzes polyphonic memory in recent works by Serhii Zhadan and Marianna Kiianovs'ka, two leading contemporary Ukrainian writers. Before focusing on Zhadan and Kiianovs'ka, the author analyzes some excerpts from poems by other contemporary writers in which memory is thematized at the crossroads of individual and collective remembering. In his latest collections, Zhadan has shown a tendency to shape his poetic world around a lyrical subject keen to collect human voices and memories with the aim of preserving them from oblivion. Kiianovs'ka’s 2017 collection Babyn Iar: Holosamy consists of memory fragments expressed by the various voices that constitute its collective subject, the victims of the 1941 Babyn Iar tragedy. In spite of the difference between these two models of poetic polyphony, the former conveyed through the mediation of a lyrical subject and the latter directly expressed by individual voices, the author here argues that Zhadan’s and Kiianovs'ka’s recent poetry successfully links the singularity of individual memory to the collective experience. He also argues that polyphonic poetic memory can be read as a strategy to overcome the opposition between the “populist” and “modernist” approaches to literature that has marked the self-perception of Ukrainian literature since the early twentieth century

    In-situ X-ray absorption spectroscopy on (photo-)electrocatalysts for water oxidation: towards new insights on the reaction mechanism

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    Here we introduce the Fixed Energy X-Ray Absorption Voltammetry (1), a novel in-situ/in-operando X-Ray Absorption Spectroscopy (XAS) technique for fast and easy preliminary characterization of electrodes and photoelectrodes which consists in recording the absorption coefficient at a fixed energy while varying at will the electrode potential. The energy is chosen close to a core level absorption edge, in order to give the maximum contrast between different oxidation states of an element. It follows that any shift from the initial oxidation state determines a variation of the X-ray absorption coefficient. In this work we demonstrate that FEXRAV allows to quickly map the variation of the oxidation states of the element under consideration in a desired potential window. At this purpose, we use high surface area electrodes to attain a high surface/volume ratio (nanoparticles, nanostructures, highly hydrated films) and be more sensible to any chemical phenomena occurring at the surface. We show that FEXRAV gives important information by itself but can also serve as a preliminary screening of the potential window or, more generally, for choosing the best experimental conditions for a better targeted XAS analysis. In fact, this work includes a detailed XAS study aimed to clarify the mechanism of iridium oxide as catalyst for water oxidation: for the first time we directly observed the co-existence of more than one Ir oxidation state at E >1.23V (RHE), that is consistent with the role of Ir as center of a catalytic cycle. This represents a crucial point for a better understanding of water electrolysis and photoelectrochemical (PEC) water splitting (2). We completed this study by time-resolved energy dispersive XAS for better understanding the time-dependence of the interfacial phenomena occurring during pseudocapacitance charge/discharge and during the water oxidation catalysis. (1) Minguzzi, A.; Lugaresi, O.; Locatelli, C.; Rondinini S.; d'Acapito, F.; Achilli, E.; Ghigna, P. Anal. Chem. 2013, 85, 7009-7013. (2) Minguzzi A., Lugaresi O., Achilli E., Locatelli C., Vertova A., Ghigna P., Rondinini S., Chem. Sci. 2014, 5, 3591-3597
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