This Invention enables the preparation of wedge-shaped samples for the TEM with common lab equipment.
This invention enables the production of tailor-made extruded profiles for the forming of metals, for example in the production of pipes and the like. The process can be used in the automotive or aerospace industries.
This Invention enables an improved catalysis of commonly used reactions in fuel cells and electrolyzers as well as an easier manufacturing process for this catalyst material.
This invention enables the production of concrete with improved surface quality, so structural defects such as pores in the concrete surface can be avoided.
This invention enables the production of improved magnesium alloys, which are particularly interesting as lightweight materials in the automotive, aerospace and medical technology industries.
The Invention enables the production of form giving structures by using auxetic materials for realization of otherwise hardly producable components.
This Invention enables a simplified catalysis of polylactic acid for producing PLA.
Production method for mesoporous carbon coatings incorporating noble metal nano particles.
Metal oxides are required in many industrial processes. This invention provides a method for the synthesis of mesoporous, nanocrystalline magnesium oxide and magnesium carbonate films using micelle plates.
This Invention enables a possibility for manufacturing Metall effect plastic articles without visible flow lines.
This Invention enables to renounce diatomeceous earth while maintaining further plant infrastructures of the precoat filtration mainly used for beverage productions.
This invention enaböes the inertion of various material surfaces for improving their resilience against soil and wear.
A device and method for constructing thermoplastics reinforced with continuous filaments.
Thisinvention enables the spatially and timely resolved measurement simulatneously of electronic and electro magnetic processes in a TEM.
This Invention describes the usage of a novel semiconductor MOF comprising Phosphonate and Arsenate for a novel electrode material used in super capacitors.
This process enables the generation of nanoparticles in spray flames which can be used, for example, as coating material, in electrical devices, for thermal conduction or insulation or as catalyst.
This invention enables the easier manufacturing of porouse silicate particles as hostmaterial for most industrial catalysts.
This innovative loop made of carbon fibers can be used, for example, as part of a supporting structure for structures such as bridges, tunnels, towers or also for mobile machines such as cranes, ships or wind turbines.
The Center for Intellectual Property (ZfgE) at the TU Berlin is the central point of contact for all topics relating to intellectual property law and intellectual property.
We patent and market the inventions of the TU Berlin, and we also teach and research technical and intellectual property law.
This makes us the central contact for inventors of the TU Berlin, for cooperation partners from industry and science as well as for interested scientists and experts from the fields of technology and law.
Zentrum für geistiges Eigentum
Technische Universität Berlin
Straße des 17. Juni 135
10623 Berlin