This invention enables the production of albicidine, which could form the basis for novel, highly effective and bacteria-resistant antibiotics.
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.
The fluidized bed membrane reactor can be used in the chemical industry and is suitable for the oxidative coupling of methane and heterogeneous catalysis.
This Invention enables a simplified catalysis of polylactic acid for producing PLA.
This Invention enables the water treatment from hard to remove substances like drug residues and Hormone like substances by photocatalytic iron-molybdenum clusters.
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 resolutions in the picosecond scale ant herefor the investigation of dynamic processes in a TEM.
This invention offers the highly precise acquisition of several bioelectric and biooptic brain and body signals simultaneously and is used in research and clinical processes as well as in automotive safety electronics or virtual reality applications.
This invention enaböes the inertion of various material surfaces for improving their resilience against soil and wear.
This bioadhesive can be used in medicine to treat bone fractures or in wound treatment.
This invention is used in the chemical industry and enables the oxidative coupling of methane and heterogeneous catalysis.
This invention enables a simplified hydroformylation with a novel catalyst including ligands based on silylenes.
This Invention enables a novel less invasive Method for determining the EAP-values of Drinks.
This invention enables the production of an oncolytic virus variante, enabling a novel specific treatment of malignant cancer.
This invention provides a way to purify wastewater from synthetic substances as well as bacteria or viruses.
An enhanced electrode for fuel cells and electro catalysis and the manufacturing process needed.
This invention is used in the chemical industry and offers a method for the production of hydrosilanes without safety problems.
This invention enables an easier production of ordered mesoporous silica structures even at room temperature.
This Innovation enables the easy marking and separating of different Proteins in a single sample.
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 Synthesis of Omphalotin A and modified secundary metabolites for the development of novel antibiotics.
This Invention contains the process of synthesis of secondary metabolites in fungal host organisms for the production of novel antibiotics.
This invention enables the easier manufacturing of porouse silicate particles as hostmaterial for most industrial catalysts.
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