Analytische Chemie
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- 2012 (15) (entfernen)
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Eingeladener Vortrag
- nein (5)
Globally, cement and concrete experts are at the cutting-edge to sustainable, green, healthy but nonetheless high-performance concrete. Today concrete is not yet well established in Africa, which offers the unique opportunity to build up a cement and concrete market based on the highest available state of technology. As this industry needs high level expertise, a central issue in implementation of skilled technology is crosslinking research institutions and laboratories. It should not be neglected that concrete is a product with low transport ranges. This means that an improved concrete market mainly supports the local economy without exceeding financial drains to the international market. Thus it fosters the fight against poverty, which is an urgent need in most African countries. The project aims to cross-link experts with industry and policy making bodies, aiming to establish sustainable cement and concrete construction in Africa.
A facile and versatile synthetic route for controlling the size and surface potential of organic–inorganic hybrid silica nanoparticles (NPs) is introduced in this paper. For polymer-grafted NPs, the density of polymer chains on the surface is strongly affected by the concentration of precursor. Nevertheless, for condensed NPs, the precursor concentration determines the particle size but not the density of polymer chains on the surface or the adsorption of bovine serum albumin (BSA). Results presented here may have Major implications in biomedical and colloidal chemistry since interfacial and colloidal properties are known to drive several processes associated with nanoparticles in biological media.
Meteorites are a unique and inspiring material for microstructural studies because if their very specific genesis. Iron meteorites have been formed under unimaginable cooling rates of a few ten Kelvins per million years so that the observable transformation of the formerly huge Fe-Ni single crystals of taenite occurred under nearly-equilibrium conditions. Octahedrites (meteorites having a Ni content between 6...15%) are characterized by ribbons of the low-temperature Fe-Ni phase kamacite separated by rims of residual taenite. This very specific feature is known as Widmanstaetten structure and has been investigated by synchrotron radiation in order to cover a higher volume fraction for a statistically relevant description of orientation relationships. However, plessite – a microstructure mainly consisting of the same phases – reflects the orientation relationship between kamacite and taenite as well. For their characterization, a scanning electron microscope is very suitable in order to investigate crystal orientations or identify phases. Despite the apparently ideal formation circumstances of iron meteorites, Ni concentration profiles prove non-equilibrium conditions. Combined EDS (energy dispersive spectroscopy) and EBSD (electron backscatter diffraction) measurements at a selected plessitic region of the Cape York iron shows that a correlation exists between Ni-concentration and the locally detected orientation relationship.
Themenschwerpunkt "Spektroskopie und Sensorik in der Prozessanalytik"
Am 03. und 04. Dezember fand das 8. Kolloquium des Arbeitskreises Prozessanalytik statt, diesmal in Berlin. Wie bekannt ist ein wichtiger Aspekt dieser Konferenz, Grenzen zwischen Fachgebieten sowie technischen Anwendungsbereichen zu überschreiten und einen interdisziplinären Austausch zu ermöglichen. Diesem Gedanken wurde bereits mit dem diesjährigen Themenschwerpunkt „Spektroskopie und Sensorik in der Prozessanalytik“ deutlich Rechnung getragen. Wie wichtig diese Themen für den Produktionsstandort Deutschland sind, zeigt die rege Beteiligung der Industrie. Neben insgesamt sieben industriellen Sponsoren und Ausstellern kam weit über die Hälfte der Teilnehmer aus der Industrie.
Neben den Vorträgen bot die Veranstaltung noch zahlreiche Posterbeiträge, die ebenfalls neue Einblicke in prozessanalytische Themen und natürlich auch Anlässe für anregende Fachdiskussionen boten. Die Veranstalter hatten darauf geachtet, dass der fachliche Austausch in den Pausen, insbesondere aber auch während der Postersessions nicht zu kurz kam.
Das 6. Interdisziplinäre Doktorandenseminar ist 2012 von Attendorn nach Berlin umgezogen. Es bot wieder reichlich Gelegenheit zum Kennenlernen, Wiedersehen und fachlichen Gedankenaustausch. Insgesamt kamen über 30 Teilnehmerinnen und Teilnehmer von Hochschulen, Forschungseinrichtungen und der Industrie zusammen.
Im Rahmen der Herstellung und Überwachung von Arzneimitteln käme wohl niemand – außer dem alten Paracelsus – auf die Idee, diese Aussage in irgendeiner Form anzuzweifeln. Zeit, der Pharmazeutischen Industrie endlich einmal ein Kompliment zu machen. Danke zu sagen, für die technisch, wissenschaftliche Kultur, die fast für jede Krankheit etwas parat hat und uns, unserer Familie, unseren Freunden ein unbeschwertes und langes Leben ermöglicht. Leute, verkauft Euch doch nicht immer so schlecht!
Declining European natural gas resources and increasing legislation mean that diversification towards ‘non-conventional gases’ is essential. Accurate and traceable measurements of the composition of non- conventional gases are required to ensure gases can be transported in existing pipeline networks, and used with existing appliances. The EMRP ‘Characterisation of energy gases’ project is successfully developing a metrology infrastructure to underpin these measurements. New standards and methods have been developed for biogas composition, biogas impurities, coal mine gases, refinery gases and environmentally-friendly odorants. The project is set to conclude in 2013 with the challenging analysis of a series of real non-conventional gas samples.
GMR sensors are widely used in many industrial segments such as information technology, automotive, automation and production, and safety applications. Each area requires an adaption of the sensor arrangement in terms of size adaption and alignment with respect to the field source involved. This paper deals with an analysis of geometric sensor parameters and the arrangement of GMR sensors providing a design roadmap for non-destructive testing (NDT) applications. For this purpose we use an analytical model simulating the magnetic flux leakage (MFL) distribution of surface breaking defects and investigate the flux leakage signal as a function of various sensor parameters. Our calculations show both the influence of sensor length and height and that when detecting the magnetic flux leakage of µm sized defects a gradiometer base line of 250 µm leads to a signal strength loss of less than 10% in comparison with a magnetometer response. To validate the simulation results we finally performed measurements with a GMR magnetometer sensor on a test plate with artificial µm-range cracks. The differences between simulation and measurement are below 6%. We report on the routes for a GMR gradiometer design as a basis for the fabrication of NDT-adapted sensor arrays. The results are also helpful for the use of GMR in other application when it comes to measure positions, lengths, angles or electrical currents.