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After accepting the challenge, B4PLASTICS proceeds towards your optimal material in 3 phases: SCREEN (TRL 2-4), SCALE (TRL 5-6) and SUPPLY (TRL 7-9). Your exclusive material with IP and supply options is the result of this adventure together, hitting the best balance in cost-function-ecology.
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Novel and highly efficient means for targeted delivery to the nucleus of eukaryotic cells.
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Vaccine booster from the sea
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Novel, fast and inexpensive processs for producing highly fluorinated oxazoles for chemical, medical or agricultural applications.
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In a joint research endeavour researchers at TU Wien, University of Innsbruck, University of Vienna and Medical University of Vienna have identified novel synthetic lignans to affect inflammatory processes related to surgical cardiovascular intervention.
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A new, environmentally friendly way to process polyimides has been developed. The process uses monomer combinations that are watersoluble over a very broad concentration range. Therefore, polyimides can be processed into e.g. films and fibers using only hot water as a solvent.
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A new, environmentally friendly process for the synthesis of benzimidazobenzophenanthroline polymers has been developed. The underlying technique, hydrothermal polymerization (HTP), is inspired by natural mineral formation processes in hot subterranean aquifers in the Earth’s crust.
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A new, environmentally friendly process for the synthesis of polybenzimidazoles has been developed. The underlying technique, hydrothermal polymerization (HTP), is inspired by natural mineral formation processes in hot subterranean aquifers in the Earth’s crust.
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Environmentally friendly method to synthesize highly crystalline, flat polyimide microsheets on a large scale. When preparing composite films, they can be efficiently aligned in parallel to each other and to the matrix film.
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A new, contactless method for determination of semiconductor conductivity has been discovered. The method is based on electron gun induced changes at buried semiconductor/ionic liquid interfaces leading to changes of the
potential drop within the space-charge layer.
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Bacteria imprinted polymer microspheres are produced via Pickering emulsion under retention of bacteria viability. Any hospital working with digestion-related diseases could take advantage of this technology.
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Novel process for producing amines via hydroaminoalkylation reaction of non-aromatic alkenes or alkynes.
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State of the art reactive adhesives are widely used in numerous industries. However, all currently existing solutions show major drawbacks. The described invention offers a solution to overcome these issues.
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State of the art compositions for the use of modelling, spackling, filling and casting are applied in a wide range of different industries. All current solutions show major drawbacks. The described invention offers a solution to those issues.
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New generation of nonaromatic initiator systems. Besides their good reactivity in (meth)acrylic formulations, they show excellent bleaching properties and high biocompatibility.
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This invention introduces novel catalysts that allow cost-effective production of
methanol from CO2. The presented modified MoS2-based, low-cost catalysts are
tolerant to sulfur and optimised towards methanol formation.
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In this novel, catalytic process CO2 is reduced to CO using a specially treated transition metal oxide in the presence of water vapour. Depending on combinations with other gases, this provides an attractive, energy efficient way to produce e.g. synthesis gas, a mixture of H2 and C0,extensively used
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The technology offers a fast and simple method to quantify the stability of the bonding in regards of tensile and shear stress for microfluidic devices.
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The technology provides novel antiviral compounds, as well as derivatives thereof. The invention is based on the antiviral activity of compounds against the Chikungunya virus, and hence, their application in the treatment or prevention of any physiological manifestation of such viral infection
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The present technology addresses the microbiological conversion of CO or CO/H2 mixtures into CH4 by co-cultures, in a cost-effective and environmentally friendly manner.