Your search keyword '"Brena, Barbara"' showing total 27 results

1. Photooxidation of PC60BM: new insights from spectroscopy.

Author

Brumboiu, Iulia Emilia, Ericsson, Leif K.E., Blazinic, Vanja, Hansson, Rickard, Opitz, Andreas, Brena, Barbara, and Moons, Ellen

Abstract

This joint experimental–theoretical spectroscopy study of the fullerene derivative PC60BM ([6,6]-phenyl-C60-butyric acid methyl ester) aims to improve the understanding of the effect of photooxidation on its electronic structure. We have studied spin-coated thin films of PC60BM by X-ray Photoelectron Spectroscopy (XPS), Near-edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy, and Fourier Transform Infrared Spectroscopy (FTIR), before and after intentional exposure to simulated sunlight in air for different lengths of time. The π* resonance in the C1s NEXAFS spectrum was found to be a very sensitive probe for the early changes to the fullerene cage, while FTIR spectra, in combination with O1s NEXAFS spectra, enabled the identification of the oxidation products. The changes observed in the spectra obtained by these complementary methods were compared with the corresponding Density Functional Theory (DFT) calculated single-molecule spectra of a large set of in silico generated oxidation products of PC60BM where oxygen atoms were attached to the C60 cage. This comparison confirms that photooxidation of PC60BM disrupts the conjugation of the fullerene cage by a transition from sp2 to sp3-hybridized carbon and causes the formation of several oxidation products, earlier proposed for C60. The agreement between experimental and calculated IR spectra suggests moreover the presence of dicarbonyl and anhydride structures on the fullerene cage, in combination with cage opening at the adsorption site. By including PC60BM with physisorbed O2 molecules on the cage in our theoretical description in order to model oxygen diffused through the film, the experimental O1s XPS and O1s NEXAFS spectra could be reproduced. [ABSTRACT FROM AUTHOR]

Published

2022

2. Valence electronic structure of cobalt phthalocyanine from an optimally tuned range-separated hybrid functional.

Author

Brumboiu, Iulia Emilia, Prokopiou, Georgia, Kronik, Leeor, and Brena, Barbara

Subjects

METAL phthalocyanines, COBALT, ELECTRONIC structure, MAGNETIC properties, PHOTOELECTRON spectroscopy

Abstract

We analyse the valence electronic structure of cobalt phthalocyanine (CoPc) by means of optimally tuning a range-separated hybrid functional. The tuning is performed by modifying both the amount of short-range exact exchange (α) included in the hybrid functional and the range-separation parameter (γ), with two strategies employed for finding the optimal γ for each α. The influence of these two parameters on the structural, electronic, and magnetic properties of CoPc is thoroughly investigated. The electronic structure is found to be very sensitive to the amount and range in which the exact exchange is included. The electronic structure obtained using the optimal parameters is compared to gas-phase photo-electron data andGWcalculations, with the unoccupied states additionally compared with inverse photo-electron spectroscopy measurements. The calculated spectrum with tuned γ determined for the optimal value of α = 0.1, yields a very good agreement with both experimental results and with GW calculations that well-reproduce the experimental data. [ABSTRACT FROM AUTHOR]

Published

2017

3. Evidence of hybridization states at the donor/acceptor interface: case of m -MTDATA/PPT.

Author

Zhang, Teng, Wang, Tingting, Grazioli, Cesare, Guarnaccio, Ambra, Brumboiu, Iulia Emilia, Johansson, Fredrik O L, Beranová, Klára, Coreno, Marcello, de Simone, Monica, Brena, Barbara, Liu, Liwei, Wang, Yeliang, and Puglia, Carla

Published

2022

4. Many-body effects and excitonic features in 2D biphenylene carbon.

Author

Lüder, Johann, Puglia, Carla, Ottosson, Henrik, Eriksson, Olle, Sanyal, Biplab, and Brena, Barbara

Subjects

EXCITON theory, PHENYLENE compounds, QUANTUM information science, BINDING energy, ELECTRON-hole droplets, SOLAR energy

Abstract

The remarkable excitonic effects in low dimensional materials in connection to large binding energies of excitons are of great importance for research and technological applications such as in solar energy and quantum information processing as well as for fundamental investigations. In this study, the unique electronic and excitonic properties of the two dimensional carbon network biphenylene carbon were investigated with GW approach and the Bethe-Salpeter equation accounting for electron correlation effects and electron-hole interactions, respectively. Biphenylene carbon exhibits characteristic features including bright and dark excitons populating the optical gap of 0.52 eV and exciton binding energies of 530 meV as well as a technologically relevant intrinsic band gap of 1.05 eV. Biphenylene carbon's excitonic features, possibly tuned, suggest possible applications in the field of solar energy and quantum information technology in the future. [ABSTRACT FROM AUTHOR]

Published

2016

5. Influence of ligands on the electronic and magnetic properties of Fe porphyrin in gas phase and on Cu(001).

Author

Brena, Barbara and Herper, Heike C.

Subjects

PORPHYRINS, LIGANDS (Chemistry), MAGNETIC properties, GAS phase reactions, LIGAND exchange reactions, MAGNETIC moments

Abstract

A study of the adsorption of different axial ligands on Fe porphyrin (FeP), both isolated and adsorbed on Cu(001), was performed by means of Density Functional Theory. The electronic and magnetic properties of the adsorbed FeP resulted to be strongly influenced by the axial ligands considered, Cl and O. Cl induces an enhancement of the overall molecular magnetic moment of 3.0 μB while O or O2 leave the spin state of the molecule unchanged. The influence of the Cl in the electronic states was moreover studied by means of theoretical NEXAFS N K-edge, where the spectra of isolated FeP and FeP with Cl ligand were calculated. The adsorption of the FeP molecules on Cu(001) leads in case of Cl to a further increase of the magnetic moment due to strong deformation of the Fe-N bond. [ABSTRACT FROM AUTHOR]

Published

2015

6. The electronic characterization of biphenylene--Experimental and theoretical insights from core and valence level spectroscopy.

Author

Lüder, Johann, de Simone, Monica, Totani, Roberta, Coreno, Marcello, Grazioli, Cesare, Sanyal, Biplab, Eriksson, Olle, Brena, Barbara, and Puglia, Carla

Subjects

BIPHENYLENE, ELECTRONIC spectra, VALENCE (Chemistry), GAS phase reactions, ELECTRONIC structure

Abstract

In this paper, we provide detailed insights into the electronic structure of the gas phase biphenylene molecule through core and valence spectroscopy. By comparing results of X-ray Photoelectron Spectroscopy (XPS) measurements with ASCF core-hole calculations in the framework of Density Functional Theory (DFT), we could decompose the characteristic contributions to the total spectra and assign them to non-equivalent carbon atoms. As a difference with similar molecules like biphenyl and naphthalene, an influence of the localized orbitals on the relative XPS shifts was found. The valence spectrum probed by photoelectron spectroscopy at a photon energy of 50 eV in conjunction with hybrid DFT calculations revealed the effects of the localization on the electronic states. Using the transition potential approach to simulate the X-ray absorption spectroscopy measurements, similar contributions from the non-equivalent carbon atoms were determined from the total spectrum, for which the slightly shifted individual components can explain the observed asymmetric features. [ABSTRACT FROM AUTHOR]

Published

2015

7. The influence of oxygen adsorption on the NEXAFS and core-level XPS spectra of the C60 derivative PCBM.

Author

Brumboiu, Iulia Emilia, Ericsson, Leif, Hansson, Rickard, Moons, Ellen, Eriksson, Olle, and Brena, Barbara

Subjects

X-ray absorption near edge structure, OXYGEN spectra, X-ray photoelectron spectroscopy, PHOTOVOLTAIC power generation, FULLERENES, OPEN-circuit voltage

Abstract

Fullerenes have been a main focus of scientific research since their discovery due to the interesting possible applications in various fields like organic photovoltaics (OPVs). In particular, the derivative [6,6]-phenyl-C60-butyric acid methyl ester (PCBM) is currently one of the most popular choices due to its higher solubility in organic solvents compared to unsubstituted C60. One of the central issues in the field of OPVs is device stability, since modules undergo deterioration (losses in efficiency, open circuit voltage, and short circuit current) during operation. In the case of fullerenes, several possibilities have been proposed, including dimerization, oxidation, and impurity related deterioration. We have studied by means of density functional theory the possibility of oxygen adsorption on the C60 molecular moiety of PCBM. The aim is to provide guidelines for near edge X-ray absorption fine structure (NEXAFS) and X-ray photoelectron spectroscopy (XPS) measurements which can probe the presence of atomic or molecular oxygen on the fullerene cage. By analysing several configurations of PCBM with one or more adsorbed oxygen atoms, we show that a joint core level XPS and O1s NEXAFS investigation could be effectively used not only to confirm oxygen adsorption but also to pinpoint the bonding configuration and the nature of the adsorbate. [ABSTRACT FROM AUTHOR]

Published

2015

8. Revisiting the adsorption of copper-phthalocyanine on Au(111) including van der Waals corrections.

Author

Lüder, Johann, Eriksson, Olle, Sanyal, Biplab, and Brena, Barbara

Subjects

PHTHALOCYANINES, VAN der Waals forces, DENSITY functional theory, GOLD spectra, MAGNETIC moments, SCANNING tunneling microscopy, CHARGE density waves

Abstract

We have studied the adsorption of copper-phthalocyanine on Au(111) by means of van der Waals corrected density functional theory using the Tkatchenko-Scheffler method. We have compared the element and site resolved adsorption distances to recent experimental normal-incident X-ray standing wave measurements. The measured adsorption distances could be reproduced within a deviation of 1% for the Cu atom, 1% for the C atoms, and 2% for the N atoms. The molecule was found to have a magnetic moment of 1 μB distributed over the Cu and the N atoms of the pyrrole ring. Simulated scanning tunnel microscopy images based on the total and on the spin-resolved differential charge densities are provided for bias voltages of −1.45 and 1.45 eV. [ABSTRACT FROM AUTHOR]

Published

2014

9. Valence-band electronic structure of iron phthalocyanine: An experimental and theoretical photoelectron spectroscopy study.

Author

Brena, Barbara, Puglia, Carla, de Simone, Monica, Coreno, Marcello, Tarafder, Kartick, Feyer, Vitaly, Banerjee, Rudra, Göthelid, Emmanuelle, Sanyal, Biplab, Oppeneer, Peter M., and Eriksson, Olle

Subjects

ELECTRONIC structure, CONDUCTION bands, PHTHALOCYANINES, PHOTOELECTRON spectroscopy, ENERGY levels (Quantum mechanics), MOLECULAR orbitals, DENSITY functionals, APPROXIMATION theory, PHOTOIONIZATION cross sections

Abstract

The electronic structure of iron phthalocyanine (FePc) in the valence region was examined within a joint theoretical-experimental collaboration. Particular emphasis was placed on the determination of the energy position of the Fe 3d levels in proximity of the highest occupied molecular orbital (HOMO). Photoelectron spectroscopy (PES) measurements were performed on FePc in gas phase at several photon energies in the interval between 21 and 150 eV. Significant variations of the relative intensities were observed, indicating a different elemental and atomic orbital composition of the highest lying spectral features. The electronic structure of a single FePc molecule was first computed by quantum chemical calculations by means of density functional theory (DFT). The hybrid Becke 3-parameter, Lee, Yang and Parr (B3LYP) functional and the semilocal 1996 functional of Perdew, Burke and Ernzerhof (PBE) of the generalized gradient approximation (GGA-)type, exchange-correlation functionals were used. The DFT/B3LYP calculations find that the HOMO is a doubly occupied π-type orbital formed by the carbon 2p electrons, and the HOMO-1 is a mixing of carbon 2p and iron 3d electrons. In contrast, the DFT/PBE calculations find an iron 3d contribution in the HOMO. The experimental photoelectron spectra of the valence band taken at different energies were simulated by means of the Gelius model, taking into account the atomic subshell photoionization cross sections. Moreover, calculations of the electronic structure of FePc using the GGA+U method were performed, where the strong correlations of the Fe 3d electronic states were incorporated through the Hubbard model. Through a comparison with our quantum chemical calculations we find that the best agreement with the experimental results is obtained for a Ueff value of 5 eV. [ABSTRACT FROM AUTHOR]

Published

2011

10. Scanning tunneling microscopy study of metal-free phthalocyanine monolayer structures on graphite.

Author

Nilson, Katharina, Åhlund, John, Brena, Barbara, Göthelid, Emmanuelle, Schiessling, Joachim, Mårtensson, Nils, and Puglia, Carla

Subjects

SCANNING tunneling microscopy, PHTHALOCYANINES, GRAPHITE, MONOMOLECULAR films, ANNEALING of metals, ADSORPTION (Chemistry), MOLECULES

Abstract

Low temperature scanning tunneling microscopy (STM) studies of metal-free phthalocyanine (H2Pc) adsorbed on highly oriented pyrolytic graphite (HOPG) have shown ordered arrangement of molecules for low coverages up to 1 ML. Evaporation of H2Pc onto HOPG and annealing of the sample to 670 K result in a densely packed structure of the molecules. Arrangements of submonolayer, monolayer, and monolayer with additional adsorbed molecules have been investigated. The high resolution of our investigations has permitted us to image single molecule orientation. The molecular plane is found to be oriented parallel to the substrate surface and a square adsorption unit cell of the molecules is reported. In addition, depending on the bias voltage, different electronic states of the molecules have been probed. The characterized molecular states are in excellent agreement with density functional theory ground state simulations of a single molecule. Additional molecules adsorbed on the monolayer structures have been observed, and it is found that the second layer molecules adsorb flat and on top of the molecules in the first layer. All STM measurements presented here have been performed at a sample temperature of 70 K. [ABSTRACT FROM AUTHOR]

Published

2007

11. The electronic structure of iron phthalocyanine probed by photoelectron and x-ray absorption spectroscopies and density functional theory calculations.

Author

Åhlund, John, Nilson, Katharina, Schiessling, Joachim, Kjeldgaard, Lisbeth, Berner, Simon, Mårtensson, Nils, Puglia, Carla, Brena, Barbara, Nyberg, Mats, and Yi Luo

Subjects

PHTHALOCYANINES, ELECTRONIC structure, PHOTOEMISSION, X-ray absorption near edge structure, SPECTRUM analysis, ELECTRON emission

Abstract

A joint experimental and theoretical work to explain the electronic and geometrical structure of an in situ prepared film of iron phthalocyanine (FePc) on silicon (100) is presented. FePc molecular films have been characterized by core and valence photoemission spectroscopy (PES) and x-ray absorption spectroscopy (XAS), and the results have been interpreted and simulated by density functional theory (DFT) calculations. C1s and N1s PE spectra have been analyzed by taking into account all chemically nonequivalent C and N atoms in the molecule. In the Fe2p3/2 spectra it has been possible to resolve two components that can be related to the open shell structure of the molecule. By valence PES and N1s XAS data, the geometrical orientation of the FePc molecules in the film could be determined. Our results indicate that for the FePc on Si(100), the molecules within the film are mainly standing on the surface. The experimental N1s XAS spectra are very well reproduced by the theoretical calculations, which are both angle and atomic resolved, giving a detailed description of the electronic and geometric structure of the FePc film. Furthermore, the asymmetry and the intensity angle variation of the first N1s XAS threshold feature could be explained by the presented DFT calculations as due to the chemical nonequivalence of the N atoms and the symmetry character of the lowest unoccupied molecular orbital. [ABSTRACT FROM AUTHOR]

Published

2006

12. Characterization of the electronic structure of C50Cl10 by means of soft x-ray spectroscopies.

Author

Brena, Barbara and Yi Luo

Subjects

MOLECULAR orbitals, SPECTRUM analysis, ELECTRONIC structure, ELECTRON spectroscopy, X-ray spectroscopy, MOLECULAR spectroscopy, QUANTUM chemistry

Abstract

The electronic structure of the last synthesized fullerene molecule, the C50Cl10, has been characterized by theoretical simulation of x-ray photoelectron spectroscopy, ultraviolet photoelectron spectroscopy, and near-edge x-ray-absorption fine structure. All the calculations were performed at the gradient-corrected and hybrid density-functional theory levels. The combination of these techniques provides detailed information about the valence band and the unoccupied molecular orbitals, as well as about the carbon core orbitals. [ABSTRACT FROM AUTHOR]

Published

2005

13. N-K near-edge x-ray-absorption fine structures of acetonitrile in gas phase.

Author

Carniato, Stéphane, Taïeb, Richard, Kukk, Edwin, Luo, Yi, and Brena, Barbara

Subjects

ACETONITRILE, X-ray absorption near edge structure, HARTREE-Fock approximation, DENSITY functionals, MOLECULES, SPECTRUM analysis, ABSORPTION

Abstract

The dynamic processes of N(1s) core-hole excitation in gas-phase CH3CN molecule have been studied at both Hartree-Fock and hybrid density-functional theory levels. The vibrational structure is analyzed for fully optimized core-excited states. Frank-Condon factors are obtained using the linear coupling model for various potential surfaces. It is found that the vibrational profile of the N-K absorption can be largely described by a summation of two vibrational progressions: a structure-rich profile of ν(CN) stretching mode and a large envelope of congestioned vibrational levels related to the strong (–C–CN) terminal bending bond. Excellent agreement between theoretical and experimental spectra is obtained. [ABSTRACT FROM AUTHOR]

Published

2005

14. Functional and basis set dependence of K-edge shake-up spectra of molecules.

Author

Brena, Barbara, Carniato, Stéphane, and Yi Luo

Subjects

SPECTRUM analysis, FUNCTIONAL analysis, ATOMIC orbitals, BENZENE, DENSITY functionals, PARTICLES (Nuclear physics)

Abstract

A straightforward approach for computing the K-edge shake-up spectra of molecules based on equivalent core-hole linear response theory at both Hartree–Fock and density functional theory levels is proposed. Benchmark calculations have been performed to explore its sensitivity to different types of functionals and basis sets for the carbon 1s shake-up spectra of benzene and metal-free phthalocyanine (H2Pc). A very good agreement with previous theoretical and experimental works for the benzene molecule has been obtained for all the functionals and basis sets tested. Electron correlation is found to be essential for a good description of the H2Pc system, whose experimental C 1s shake-up spectrum is best reproduced by the hybrid density functional. [ABSTRACT FROM AUTHOR]

Published

2005

15. Molecular ordering in isonicotinic acid on rutile TiO2(110) investigated with valence band photoemission.

Author

OèShea, James N., Swarbrick, Janine C., Nilson, Katharina, Puglia, Carla, Brena, Barbara, Luo, Yi, and Dhanak, Vin R.

Subjects

ISONICOTINIC acid, CARBOXYLIC acids, PYRIDINE, SYNCHROTRONS, PHOTOEMISSION, HYDROGEN

Abstract

The adsorption of isonicotinic acid on rutile TiO2(110) has been investigated using synchrotron-based valence band photoemission. Structural ordering in multilayer films of the molecules is found to give rise to a strong angular dependence in the valence band intensities when measured using linearly polarized radiation. Molecular ordering in this case is proposed to be induced by intermolecular hydrogen bonding which is found to be highly dependent upon the deposition rate of the isonicotinic acid. Through comparison of the experimental data with density functional calculated valence band spectra of hydrogen-bonded isonicotinic acid molecules, we can account for the angular dependence in terms of the spatial distribution of the molecular orbitals.© 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

16. Electronic structures of azafullerene C[sub 48]N[sub 12].

Author

Brena, Barbara and Yi Luo

Subjects

FULLERENES, ELECTRONIC structure, NUCLEAR isomers, X-ray spectroscopy, CONDUCTION electrons

Abstract

Two recently proposed low-energy azafullerene C[sub 48]N[sub 12] isomers have been theoretically characterized using x-ray spectroscopies. The x-ray photoelectron spectroscopy, the near-edge absorption fine structure, the x-ray emission spectroscopy, and the ultraviolet photoelectron spectroscopy for both isomers have been predicted at the gradient-corrected density functional theory level. These spectroscopies together give a comprehensive insight of the electronic structure on the core, valence, and unoccupied orbitals. They have also provided a convincing way for identifying the isomer structures. © 2003 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2003

17. Grafting, self-organization and reactivity of double-decker rare-earth phthalocyanine.

Author

Witkowski, Nadine, Lüder, Johann, Bidermane, Ieva, Farronato, Mattia, Prévot, Geoffroy, Bouvet, Marcel, Puglia, Carla, and Brena, Barbara

Published

2019

18. Site-specific X-ray induced dynamics in liquid methanol.

Author

Saak, Clara-Magdalena, Unger, Isaak, Brena, Barbara, Caleman, Carl, and Björneholm, Olle

Abstract

Complex chemical and biochemical systems are susceptible to damage from ionising radiation. However, questions remain over the extent to which such damage is influenced by the nature of the surrounding chemical environment, which can consist of both hydrophobic and hydrophilic domains. To gain fundamental insight into the first crucial mechanistic steps of radiation damage in such systems, we need to understand the initial radiation response, i.e. dynamics occurring on the same timescale as electronic relaxation, which occur in these different environments. Amphiphilic molecules contain both hydrophobic and hydrophilic domains, but the propensity for charge delocalisation and proton dynamics to occur in these different domains has been largely unexplored so far. Here, we present carbon and oxygen 1s Auger spectra for liquid methanol, one of the simplest amphiphilic molecules, as well as its fully deuterated equivalent d4-methanol, in order to explore X-ray induced charge delocalisation and proton dynamics occurring on the few femtosecond timescale. Unexpectedly, we find a similar propensity for proton dynamics to occur at both the carbon and oxygen site within the lifetime of the core hole. Our results could serve as a model for decay processes that are likely to occur in other more complex amphiphilic systems. [ABSTRACT FROM AUTHOR]

Published

2019

19. Spectroscopic Fingerprints of Intermolecular H‐Bonding Interactions in Carbon Nitride Model Compounds.

Author

Lanzilotto, Valeria, Silva, J. Luis, Zhang, Teng, Stredansky, Matuš, Grazioli, Cesare, Simonov, Konstantin, Giangrisostomi, Erika, Ovsyannikov, Ruslan, De Simone, Monica, Coreno, Marcello, Araujo, C. Moyses, Brena, Barbara, and Puglia, Carla

Subjects

INTERMOLECULAR interactions, HYDROGEN bonding, FUNCTIONAL groups, PHOTOCATALYSTS, X-ray photoelectron spectroscopy

Abstract

Abstract: The effect of intermolecular H‐bonding interactions on the local electronic structure of N‐containing functional groups (amino group and pyridine‐like N) that are characteristic of polymeric carbon nitride materials p‐CN(H), a new class of metal‐free organophotocatalysts, was investigated. Specifically, the melamine molecule, a building block of p‐CN(H), was characterized by X‐ray photoelectron (XPS) and near edge X‐ray absorption fine structure (NEXAFS) spectroscopy. The molecule was studied as a noninteracting system in the gas phase and in the solid state within a H‐bonded network. With the support of DFT simulations of the spectra, it was found that the H‐bonds mainly affect the N 1s level of the amino group, leaving the N 1s level of the pyridine‐like N mostly unperturbed. This is responsible for a reduction of the chemical shift between the two XPS N 1s levels relative to free melamine. Consequently, N K‐edge NEXAFS resonances involving the amino N 1s level also shift to lower photon energies. Moreover, the solid‐state absorption spectra showed significant modification/quenching of resonances related to transitions from the amino N 1s level to σ* orbitals involving the NH2 termini. [ABSTRACT FROM AUTHOR]

Published

2018

20. Revealing the Contribution of Individual Factors to Hydrogen Evolution Reaction Catalytic Activity.

Author

Zhou, Yu, Silva, Jose Luis, Woods, John M., Pondick, Joshua V., Feng, Qingliang, Liang, Zhixiu, Liu, Wen, Lin, Li, Deng, Bingchen, Brena, Barbara, Xia, Fengnian, Peng, Hailin, Liu, Zhongfan, Wang, Hailiang, Araujo, Carlos Moyses, and Cha, Judy J.

Published

2018

21. Characterization of gas phase iron phthalocyanine with X-ray photoelectron and absorption spectroscopies.

Author

Bidermane, Ieva, Lüder, Johann, Totani, Roberta, Grazioli, Cesare, de Simone, Monica, Coreno, Marcello, Kivimäki, Antti, Åhlund, John, Lozzi, Luca, Brena, Barbara, and Puglia, Carla

Subjects

PHTHALOCYANINES, GAS phase reactions, X-ray photoelectron spectroscopy, X-ray absorption, PHOTOEMISSION

Abstract

Despite the numerous studies dedicated to phthalocyanine molecules adsorbed on surfaces, in monolayer or thin film, very few works have been focused on the characterization of vapors of these molecules. In this article we present the C 1s, N 1s and Fe 2p photoemission results as well as N K-edge X-ray absorption data of iron phthalocyanine (FePc) in gas phase. Presented comparison of X-ray photoelectron spectroscopy and X-ray absorption spectroscopy spectra of FePc films show a great similarity with the gas phase results, confirming the molecular character of thick films. The Fe 2p photoemission spectrum of the gas phase FePc, shown for the first time, can be considered as a fingerprint of the Fe(II) ionic state of the central metal of the iron phthalocyanine. The performed multiplet calculations for describing the Fe 2p XP spectrum indicate [ABSTRACT FROM AUTHOR]

Published

2015

22. Magnetic X-ray circular dichroism on in situ grown 3 d magnetic thin films on surfaces.

Author

Arvanitis, Dimitri, Hunter Dunn, Jonathan, Karis, Olof, Hahlin, Anders, Brena, Barbara, Carr, Roger, and Mårtensson, Nils

Published

2001

23. Quantitative analysis of L-edge white line intensities: the influence of saturation and transverse coherence.

Author

Hahlin, Anders, Karis, Olof, Brena, Barbara, Hunter Dunn, Jonathan, and Arvanitis, Dimitri

Published

2001

24. X-ray photoelectron spectroscopy of low surface concentration mass-selected Ag clusters.

Author

O'Shea, James N., Schnadt, Joachim, Andersson, Staffan, Patthey, Luc, Rost, Steffen, Giertz, Annika, Brena, Barbara, Forsell, Jan-Olof, Sandell, Anders, Bjo¨rneholm, Olle, Bru¨hwiler, Paul A., and Mårtensson, Nils

Subjects

MICROCLUSTERS, PHOTOELECTRON spectroscopy

Abstract

We have developed an experimental setup for the study of small mass-selected clusters delivered by soft landing to a model oxide support. An automated deposition system to achieve accurately quantified homogeneous surfaces is described which also overcomes beam instability. Finally we present some recent photoelectron spectroscopic data from the analysis of mass-selected Ag[sub n][sup +] clusters deposited on a Xe covered Al[sub 2]O[sub 3] surface. Large core-level binding energy shifts are observed as a function of deposited cluster size and diffusion/agglomeration within the noble gas layer. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2000

25. Unveiling the Interfacial Effects for Enhanced Hydrogen Evolution Reaction on MoS2/WTe2 Hybrid Structures.

Author

Zhou, Yu, Pondick, Joshua V., Silva, Jose Luis, Woods, John M., Hynek, David J., Matthews, Grace, Shen, Xin, Feng, Qingliang, Liu, Wen, Lu, Zhixing, Liang, Zhixiu, Brena, Barbara, Cai, Zhao, Wu, Min, Jiao, Liying, Hu, Shu, Wang, Hailiang, Araujo, Carlos Moyses, and Cha, Judy J.

Published

2019

26. Functional Dirac Materials: Status and Perspectives.

Author

Balatsky, Alexander V., Brena, Barbara, Herper, Heike C., and Sanyal, Biplab

Subjects

DIRAC function, BAND gaps, SEMICONDUCTORS

Published

2018

27. Characterization of gas phase iron phthalocyanine with X-ray photoelectron and absorption spectroscopies (Phys. Status Solidi B 6/2015).

Author

Bidermane, Ieva, Lüder, Johann, Totani, Roberta, Grazioli, Cesare, de Simone, Monica, Coreno, Marcello, Kivimäki, Antti, Åhlund, John, Lozzi, Luca, Brena, Barbara, and Puglia, Carla

Subjects

PHTHALOCYANINES, X-ray photoelectron spectroscopy

Abstract

The possibility to design novel functional materials with desired and controlled characteristics demands a thorough understanding of the electronic structure of the building molecules and of the derived molecular materials. Phthalocyanines are versatile molecules, suitable for a variety of technological applications. For example, FePc capability to activate oxygen makes it successfully used in biomimetic catalysis. Since the activation of oxygen seems to take place at the metal center of the molecules, causing a change of the metal ionic state, it is of particular interest to characterize the ionic state of the central metal atom under working/activation conditions. The study carried out by Bidermane et al. (pp. 1259–1265) addresses the issue of identifying the influence of external factors on the electronic structure of the molecules in novel functional materials. The comparison between the electronic properties of gas phase and thick films on surfaces are analyzed by means of XPS and multiplet calculations. These kinds of studies are fundamental for enlightening the purely molecular electronic ‘fingerprint’ and the modification induced by different working conditions of such molecular films when employed in technological application. [ABSTRACT FROM AUTHOR]

Published

2015