describes a preparation of moderately volatile organic explosives (e.g. TATP) in a fluid matrix. This solvent is chemically inert and olefactorically neutral. In particular peroxide explosives with high sensitivity to friction, impact and electrostatic discharge can be handled safely this way. The explosive material can evaporate from the matrix. Therefore, the preparation is a safe scent source of authentic substance.
Authentic substance testing agents available on the market for this class of substance so far are bonded to solid support materials and only have a low capacity. As a liquid testing agent, an FMED can be dosed and applied as required. The high capacity also allows scent traces to be provided over a longer period and large amounts of explosive material to be simulated.
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28.03.2017 | TechnologieAllianz e.V.
27.03.2017 | TechnologieAllianz e.V.
The Institute of Semiconductor Technology and the Institute of Physical and Theoretical Chemistry, both members of the Laboratory for Emerging Nanometrology (LENA), at Technische Universität Braunschweig are partners in a new European research project entitled ChipScope, which aims to develop a completely new and extremely small optical microscope capable of observing the interior of living cells in real time. A consortium of 7 partners from 5 countries will tackle this issue with very ambitious objectives during a four-year research program.
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The results will be published on March 22 in the journal „Astronomy & Astrophysics“.
Galaxy clusters are the largest gravitationally bound structures in the universe. With a typical extent of about 10 million light years, i.e. 100 times the...
Researchers at the Goethe University Frankfurt, together with partners from the University of Tübingen in Germany and Queen Mary University as well as Francis Crick Institute from London (UK) have developed a novel technology to decipher the secret ubiquitin code.
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Silicon nanosheets are thin, two-dimensional layers with exceptional optoelectronic properties very similar to those of graphene. Albeit, the nanosheets are less stable. Now researchers at the Technical University of Munich (TUM) have, for the first time ever, produced a composite material combining silicon nanosheets and a polymer that is both UV-resistant and easy to process. This brings the scientists a significant step closer to industrial applications like flexible displays and photosensors.
Silicon nanosheets are thin, two-dimensional layers with exceptional optoelectronic properties very similar to those of graphene. Albeit, the nanosheets are...
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