Your search keyword '"Moons E"' showing total 5 results

1. Scanning tunneling microscopy study of thin PTCDI films on Ag/Si(111)-√3 × √3.

Author

Emanuelsson, C., Zhang, H. M., Moons, E., and Johansson, L. S. O.

Subjects

SCANNING tunneling microscopy, THIN films, PERYLENE, IMIDES, LOW energy electron diffraction

Abstract

3,4,9,10-perylene tetracarboxylic diimide molecules were evaporated onto a Ag/Si(111)- √3 × √3 surface and studied by scanning tunneling microscopy/spectroscopy and low energy electron diffraction (LEED). The growth mode was characterized as layer-by-layer growth with a single molecular unit cell in a short range order. The growth of the first two monolayers involves a molecule/substrate superstructure and a molecule/molecule superstructure. At higher coverages, the molecules in each layer were found to align so that unit cells are on top of each other. The experimentally obtained LEED pattern is described as a combination of patterns from the molecular unit cell and the molecule/substrate superstructure. The electronic structure was found to be strongly dependent on the film thickness for the first few layers: Several extra states are found at low coverages compared to higher coverages resulting in a very small pseudo gap of 0.9 eV for the first layer, which widens up to 4.0 eV for thicker films. [ABSTRACT FROM AUTHOR]

Published

2017

2. Band diagram and band line-up of the polycrystalline CdS/Cu(In,Ga)Se2 heterojunction and its response to air annealing.

Author

Gal, D., Beier, J., Moons, E., Hodes, G., Cahen, D., Kronik, L., Burstein, L., Mishori, B., Leibovitch, M., Shapira, Y., Hariskos, D., Klenk, R., and Schock, H.-W.

Published

1996

3. Erratum: “Ultraviolet–visible near-field microscopy of phase-separated blends of polyfluorene-based conjugated semiconductors” [Appl. Phys. Lett. 79, 833 (2001)].

Author

Stevenson, R., Riehn, R., Milner, R. G., Richards, D., Moons, E., Kang, D.-J., Blamire, M., Morgado, J., and Cacialli, F.

Subjects

MICROSCOPY, SEMICONDUCTORS

Abstract

Presents an erratum of the article 'Ultraviolet--Visible Near-Field Microscopy of Phase-Separated Blends of Polyfluorene-Based Conjugated Semiconductors' appearing in the 2001 issue of the journal 'Applied Physics Letters'.

Published

2001

4. Ultraviolet–visible near-field microscopy of phase-separated blends of polyfluorene-based conjugated semiconductors.

Author

Stevenson, R., Riehn, R., Milner, R. G., Richards, D., Moons, E., Kang, D.-J., Blamire, M., Morgado, J., and Cacialli, F.

Subjects

NEAR-field microscopy, ELECTROLUMINESCENCE

Abstract

We have used fluorescence scanning near-field microscopy to characterize polymer blends for electroluminescent applications, and thereby identify compositional nonhomogeneities. In particular, we have focused on the binary system constituted by poly(9,9′-dioctylfluorenealt-benzothiadiazole) and poly(9,9′-dioctylfluorene) (PFO), known to give efficiencies of up to 22 cd/A in light-emitting devices with suitable electrodes. Our primary aim was the assignment of the morphological features revealed in shear-force and atomic-force images of spin-coated films, and suggestive of phase separation on a 300-nm-length scale. From analysis of the fluorescence images (325 and 488 nm excitation), and quantitative correlation of optical and topographic data, we identify the raised features with PFO-rich regions. However, the limited variation in fluorescence intensity reveals a high extent of mixing within each phase on the length scale accessible in our experiment, approximately 100 nm for our focused-ion-beam-processed probe apertures. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

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

Author

Brumboiu IE, Ericsson L, Hansson R, Moons E, Eriksson O, and Brena B

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.

Published

2015