279 research outputs found
Synthesis of atomically thin hexagonal boron nitride films on nickel foils by molecular beam epitaxy
Hexagonal boron nitride (h-BN) is a layered two-dimensional material with
properties that make it promising as a dielectric in various applications. We
report the growth of h-BN films on Ni foils from elemental B and N using
molecular beam epitaxy. The presence of crystalline h-BN over the entire
substrate is confirmed by Raman spectroscopy. Atomic force microscopy is used
to examine the morphology and continuity of the synthesized films. A scanning
electron microscopy study of films obtained using shorter depositions offers
insight into the nucleation and growth behavior of h-BN on the Ni substrate.
The morphology of h-BN was found to evolve from dendritic, star-shaped islands
to larger, smooth triangular ones with increasing growth temperature
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The influence of Mg doping on the nucleation of self-induced GaN nanowires
GaN nanowires were grown without any catalyst by plasma-assisted molecular beam
epitaxy. Under supply of Mg, nanowire nucleation is faster, the areal density of
wires increases to a higher value, and nanowire coalescence is more pronounced
than without Mg. During nanowire nucleation the Ga desorption was monitored insitu
by line-of-sight quadrupolemass spectrometry for various substrate temperatures.
Nucleation energies of 4.0±0.3 eV and 3.2±0.3 eV without and with Mg supply were
deduced, respectively. This effect has to be taken into account for the fabrication of
nanowire devices and could be employed to tune the NW areal density
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Automatic georeferencing of astronaut auroral photography
Astronauts on board the International Space Station (ISS) have taken thousands of high-resolution colour photographs of the aurora, which could be made useful for research if their pointing information could be reconstructed. We describe a method to do this using the star field in the images, and how the reconstructed pointing can then be used to georeference the images to a similar level of accuracy in existing all-sky camera images. We have used this method to make georeferenced auroral images taken from the ISS available and here describe the resulting data set, processing software, and how to access them
Working group report on Semantic Technologies in Collaborative Applications
Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works. T. Riechert, E. J. Ruiz, I. Cantador, M. Engler, D. T. Michaelides, M. Bortenschläger, and R. Tolksdorf, "Working group report on Semantic Technologies in Collaborative Applications", in WETICE '06. 15th IEEE International Workshops on Enabling Technologies: Infrastructure for Collaborative Enterprises, 2006, Manchester (United Kingdom), pp. 347 - 351.The 1st International Workshop on Semantic Technologies in Collaborative Applications STICA 06 brought together researchers in the field of semantics-enabled collaboration. The presentations covered various aspects of the field and showed clear indications for future collaborations
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GaN-based radial heterostructure nanowires grown by MBE and ALD
A combination of molecular beam epitaxy (MBE) and atomic layer deposition (ALD) was adopted to fabricate GaN-based core/shell NW structures. ALD was used to deposit a HfO2 shell of onto the MBE grown GaN NWs. Electron transparent samples were prepared by focussed ion beam methods and characterized using state-of-the-art analytical transmission and scanning transmission electron microscopy. The polycrystalline coating was found to be uniform along the whole length of the NWs. Photoluminescence and Raman spectroscopy analysis confirms that the HfO2 ALD coating does not add any structural defect when deposited on the NWs
Anisotropic exchange interaction of localized conduction-band electrons in semiconductor structures
The spin-orbit interaction in semiconductors is shown to result in an
anisotropic contribution into the exchange Hamiltonian of a pair of localized
conduction-band electrons. The anisotropic exchange interaction exists in
semiconductor structures which are not symmetric with respect to spatial
inversion, for instance in bulk zinc-blend semiconductors. The interaction has
both symmetric and antisymmetric parts with respect to permutation of spin
components. The antisymmetric (Dzyaloshinskii-Moriya) interaction is the
strongest one. It contributes significantly into spin relaxation of localized
electrons; in particular, it governs low-temperature spin relaxation in n-GaAs
with the donor concentration near 10^16cm-3. The interaction must be allowed
for in designing spintronic devices, especially spin-based quantum computers,
where it may be a major source of decoherence and errors
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Structural investigation of nanocrystalline graphene grown on (6√3×6√3) R30°-reconstructed SiC surfaces by molecular beam epitaxy
Growth of nanocrystalline graphene films on (6√3×6√3) R30°- reconstructed SiC surfaces was achieved by molecular beam epitaxy, enabling the investigation of quasi-homoepitaxial growth. The structural quality of the graphene films, which is investigated by Raman spectroscopy, increases with growth time. X-ray photoelectron spectroscopy proves that the SiC surface reconstruction persists throughout the growth process and that the synthesized films consist of sp2-bonded carbon. Interestingly, grazing incidence X-ray diffraction measurements show that the graphene domains possess one single in-plane orientation, are aligned to the substrate, and offer a noticeably contracted lattice parameter of 2.446 Å. We correlate this contraction with theoretically calculated reference values (all-electron density functional calculations based on the van der Waals corrected PBE functional) for the lattice parameter contraction induced in ideal, free-standing graphene sheets by: substrate-induced buckling, the edges of limited-size flakes, and typical point defects (monovacancies, divacancies, Stone-Wales defects)
Ein mehrkanaliges Biosensormesssystem zur Überwachung der Nitrifikation in Abwasserreinigungsanlagen
Bei der biologischen Abwasserreinigung treten häufig Störungen der Nitrifikationsstufe (biochemische Oxidation von Ammonium über Nitrit zu Nitrat) auf, die durch Hemmstoffe sowie durch Stossbelastungen hoher Stickstofffrachten (N-BSB) verursacht werden. Dadurch gelangen erhöhte Mengen an sauerstoffzehrenden reduzierten Stickstoffverbindungen in die Oberflächengewässer. Dies ist besonders kritisch bei Vorflutern mit einem bereits niedrigem Sauerstoffgehalt, da durch diese reduzierten Stickstoffverbindungen die Konzentration an gelöstem Sauerstoff in Folge mikrobieller Oxidation stark absinken kann und somit die Biocönose im Gewässer nachhaltig gestört wird. Da es sich bei Nitrit und Ammoniak zudem um starke Fischgifte handelt, ist die Elimination dieser Stickstoffverbindungen aus dem Abwasser nicht zuletzt auch gesetzlich vorgeschrieben.
Zur Erfassung von Störungen der Nitrifikationsstufe wurde deswegen in den vergangenen Jahren am ISWA ein Nitrifikanten-Einzelbiosensor entwickelt. Dabei wird über den Sauerstoffverbrauch des Immobilisates die bakterielle Stoffwechselaktivität überwacht, wobei dies ein Maß für das Vorhandensein von Hemmstoffen bzw. Nitrifikationssubstraten in einer Probe ist. Der Vorteil dieses Systems ist vor allem darin zu sehen, dass die damit durchgeführten Messungen sowohl schnell als auch reproduzierbar durchführbar sind. So ist mit diesem Geräteprototyp über die Durchführung von ca. 10 – 15 Einzelmessungen verschiedener Probenverdünnungen die Quantifizierung der Hemmwirkung von einer Probe pro Messtag möglich.
Schlussfolgerung und Ausblick
Die Untersuchungen zur Bestimmung der nitrifikationshemmenden Wirkung von Standardhemmstoffen, Abwasserproben und des N-BSB ergaben, dass die neu entwickelten Nitrifikanten-Biosensoren schnell und mit hoher Signalstabilität auf sich ändernde Hemmstoff- und Substratkonzentrationen reagieren und somit für die Klärwerksüberwachung prinzipiell einsetzbar sind
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