Patents Assigned to Technische Universitaet Berlin
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Patent number: 11368196Abstract: Communication systems and methods in accordance with various embodiments of the invention utilize modulation on zeros. Carrier frequency offsets (CFO) can result in an unknown rotation of all zeros of a received signal's z-transform. Therefore, a binary MOCZ scheme (BMOCZ) can be utilized in which the modulated binary data is encoded using a cycling register code (e.g. CPC or ACPC), enabling receivers to determine cyclic shifts in the BMOCZ symbol resulting from a CFO. Receivers in accordance with several embodiments of the invention include decoders capable of decoding information bits from received discrete-time baseband signals by: estimating a timing offset for the received signal; determining a plurality of zeros of a z-transform of the received symbol; identifying zeros from the plurality of zeros that encode received bits by correcting fractional rotations resulting from the CFO; and decoding information bits based upon the received bits using a cycling register code.Type: GrantFiled: March 17, 2021Date of Patent: June 21, 2022Assignees: California Institute of Technology, The Regents of the University of California, Technische Universität BerlinInventors: Philipp Walk, Babak Hassibi, Peter Jung, Hamid Jafarkhani
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Patent number: 11362340Abstract: The invention relates to a multi-component catalyst material for use in a fuel cell or electrolysis system, in particular in a regenerative fuel cell or reversible electrolyser. According to the invention, the catalyst material comprises a doped manganese oxide, a NiFe intercalation compound and a conductive carrier material, wherein the doped manganese oxide and the NiFe intercalation compound are supported on the carrier material.Type: GrantFiled: April 11, 2019Date of Patent: June 14, 2022Assignee: TECHNISCHE UNIVERSITÄT BERLINInventors: Sören Dresp, Malte Klingenhof, Peter Strasser
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Patent number: 11358987Abstract: It is provided a chemical compound according to general formula (1)Type: GrantFiled: March 28, 2019Date of Patent: June 14, 2022Assignee: TECHNISCHE UNIVERSITÄT BERLINInventors: Roderich Suessmuth, Stefan Graetz, Iraj Behroz, Leonard Von Eckardstein, Patrick Michael Durkin, John Weston, Lieby Zborovsky
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Publication number: 20220176405Abstract: A method for rendering material surfaces inert is provided. Exemplary surfaces include ceramic, metal or plastic surfaces. The method is accomplished with functionalized perfluorinated compounds for the formation of hyperhydrophobic structures on the surfaces to create inert surfaces. The inert surfaces produced or can be produced in this way have an extremely low surface energy, are resistant to deposits of substances or cells and have a very low coefficient of friction. Practical uses of the inert surfaces are also provided.Type: ApplicationFiled: July 30, 2019Publication date: June 9, 2022Applicant: Technische Universität BerlinInventors: Konstanze Schäfer, Astrid John-Müller, Stefanie Maike Krämer
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Patent number: 11353034Abstract: The invention relates to a method for determining an indicator for a prediction of an instability in a compressor, which is designed as an axial or radial compressor, having the following steps: operating a compressor designed as an axial or radial compressor in operating states, which differ by different values of a characteristic parameter for a flow mass flux of the compressor, wherein the operating states are run through at decreasing flow mass fluxes; determining the values of the characteristic value for the flow mass flux for the operating states; detecting time-resolved pressure measurement values when running through the operating states by means of a pressure sensor, which is arranged in a housing of the compressor, upstream adjacent to an entrance plane of a rotor stage determining the skew for the operating states and determining an indicator for an instability of the compressor, if an algebraic sign change of the curve rise is determined for a curve profile of the skew over the characteristic parType: GrantFiled: March 1, 2018Date of Patent: June 7, 2022Assignee: TECHNISCHE UNIVERSITÄT BERLINInventors: Mario Eck, Dieter Peitsch
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Publication number: 20220171333Abstract: The invention relates to a method for detecting a measured value (d?/dx, M).Type: ApplicationFiled: June 28, 2019Publication date: June 2, 2022Applicant: Technische Universität BerlinInventors: Tolga WAGNER, Michael LEHMANN, Tore NIERMANN
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Patent number: 11345910Abstract: Disclosed is a mussel adhesive protein including at least one photocaged 3,4-dihydroxyphenylalanine derivative residue including a protecting group on at least one hydroxyl residue of its catechol moiety. The photocaged 3,4-dihydroxyphenylalanine derivative residue replaces a naturally occurring amino acid and the protecting group can be cleaved from the 3,4-dihydroxyphenylalanine derivative residue by irradiation with UV light.Type: GrantFiled: March 26, 2018Date of Patent: May 31, 2022Assignee: Technische Universität BerlinInventors: Matthias Hauf, Nediljko Budisa, Florian Richter, Tobias Baumann, Tobias Schneider
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Publication number: 20220161240Abstract: A method for obtaining metal oxides supported on mesoporous silica particles includes a) providing a solution of at least one metal salt, b) providing a solution of at least one template forming agent of the general formula (I) Y3Si(CH2)n—X (I), wherein X is a complexing functional group; Y is —OH or a hydrolysable moiety selected from the group containing halogen, alkoxy, aryloxy, acyloxy, c) mixing the metal salt solution and the complex forming agent solution to obtain a metal precursor; d) adding at least one solution containing at least one pore structure directing agent to the metal precursor to obtain a metal precursor template mixture; e) adding at least one alkali silicate solution to the metal precursor template mixture at room temperature to obtain a silica-supported metal complex; and f) calcination of the silica-supported metal complex under air to obtain the supported metal oxide mesoporous silica particles.Type: ApplicationFiled: May 7, 2020Publication date: May 26, 2022Applicant: TECHNISCHE UNIVERSITÄT BERLINInventors: Maria COLMENARES, Tomos HARRIS, Julien SIALELLI, Javier SILVA MORA, Arne THOMAS
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Patent number: 11299394Abstract: A process for the production of nanoparticles from a liquid mixture comprising at least one precursor and at least one solvent in a reactor with continuous through-flow comprises the steps of feeding at least one oxygen-containing gas inflow stream having a temperature into the at least one reactor, adding at least one fuel having a temperature to the oxygen-containing gas inflow stream, wherein the fuel and the oxygen-containing gas inflow stream form a homogeneous ignitable mixture having a temperature, wherein the temperature of the homogeneous ignitable mixture is above the autoignition temperature of the homogeneous ignitable mixture, introducing at least one precursor-solvent mixture into the homogeneous ignitable mixture; autoignition of the ignitable mixture of oxygen-containing gas and fuel after an ignition delay time to form a stabilized flame and reacting the precursor-solvent mixture in the stabilized flame to form nanoparticles from the metal salt precursor, removing the formed nanoparticles.Type: GrantFiled: March 16, 2018Date of Patent: April 12, 2022Assignee: TECHNISCHE UNIVERSITÄT BERLINInventors: Sebastian Schimek, Christian Oliver Paschereit, Moritz Sieber
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Patent number: 11293747Abstract: An embodiment of the invention relates to a method for carrying out a time-resolved interferometric measurement comprising the steps of generating at least two coherent waves, overlapping said at least two coherent waves and producing an interference pattern, measuring the interference pattern for a given exposure time, thereby forming measured interference values, and analyzing the measured interference values and extracting amplitude and/or phase information from the measured interference values. In at least one time segment, hereinafter referred to as disturbed time segment, of the expo-sure time, the interference pattern is intentionally disturbed or destroyed such that the corresponding measured interference values describe a disturbed or destroyed interference pattern.Type: GrantFiled: February 27, 2018Date of Patent: April 5, 2022Assignee: TECHNISCHE UNIVERSITAET BERLINInventors: Michael Lehmann, Tore Niermann, Tolga Wagner
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Publication number: 20220052898Abstract: Systems and methods for transmitting data using various Modulation on Zeros schemes are described. In many embodiments, a communication system is utilized that includes a transmitter having a modulator that modulates a plurality of information bits to encode the bits in the zeros of the z-transform of a discrete-time baseband signal. In addition, the communication system includes a receiver having a decoder configured to decode a plurality of bits of information from the samples of a received signal by: determining a plurality of zeros of a z-transform of a received discrete-time baseband signal based upon samples from a received continuous-time signal, identifying zeros that encode the plurality of information bits, and outputting a plurality of decoded information bits based upon the identified zeros.Type: ApplicationFiled: March 15, 2021Publication date: February 17, 2022Applicants: California Institute of Technology, Technische Universität BerlinInventors: Philipp Walk, Babak Hassibi, Peter Jung
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Publication number: 20220052728Abstract: Communication systems and methods in accordance with various embodiments of the invention utilize modulation on zeros. Carrier frequency offsets (CFO) can result in an unknown rotation of all zeros of a received signal's z-transform. Therefore, a binary MOCZ scheme (BMOCZ) can be utilized in which the modulated binary data is encoded using a cycling register code (e.g. CPC or ACPC), enabling receivers to determine cyclic shifts in the BMOCZ symbol resulting from a CFO. Receivers in accordance with several embodiments of the invention include decoders capable of decoding information bits from received discrete-time baseband signals by: estimating a timing offset for the received signal; determining a plurality of zeros of a z-transform of the received symbol; identifying zeros from the plurality of zeros that encode received bits by correcting fractional rotations resulting from the CFO; and decoding information bits based upon the received bits using a cycling register code.Type: ApplicationFiled: March 17, 2021Publication date: February 17, 2022Applicants: California Institute of Technology, The Regents of the University of California, Technische Universität BerlinInventors: Philipp Walk, Babak Hassibi, Peter Jung, Hamid Jafarkhani
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Publication number: 20220040919Abstract: In a first aspect, the invention refers to a printhead for the additive manufacturing of a fibre reinforced material, comprising a fibre reinforcement in a polymer matrix, comprising an infiltration unit for mixing and/or infiltrating a fibre roving with a molten polymer; at least one feeder for a polymer and/or a fibre roving to the infiltration unit; a heating element, at least for partially melting the polymer within the infiltration unit; at least one deflecting element within the infiltration unit and an outlet for the resulting fibre reinforced material from the infiltration unit, wherein the molten polymer can be guided within the infiltration unit with a polymer flow direction, from the feeder to the outlet, along a channel between the feeder and the outlet, and the fibre roving can be guided within the channel, by means of deflection, around the deflecting element, area by area, transversely to the polymer flow direction, from the feeder to the outlet.Type: ApplicationFiled: November 8, 2019Publication date: February 10, 2022Applicant: Technische Universität BerlinInventors: Mathias CZASNY, Aleksander GURLO, Oliver GÖRKE, Franziska SCHMIDT
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Patent number: 11225465Abstract: A chemical compound is provided according to general formula (1):Type: GrantFiled: December 21, 2017Date of Patent: January 18, 2022Assignee: TECHNISCHE UNIVERSITÄT BERLINInventors: Roderich Suessmuth, Dennis Kerwat, Stefan Graetz, Iraj Behroz, Leonard Von Eckardstein, Patrick Michael Durkin, Marius Morkunas, John Weston
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Publication number: 20210359493Abstract: The invention relates, inter alia, to an optical semiconductor amplifier (10), in which a plurality of quantum dots (QD) are arranged in at least one quantum dot layer (21-24) of a semiconductor element (11) of the semiconductor amplifier (10), wherein die semiconductor element (11) has a preferred direction (X) located in the quantum dot layer plane, and elongated quantum dots (QD) are present, each of which is longer in the said preferred direction (X) than in a transverse direction (Y) perpendicular thereto and is likewise located in the quantum dot layer plane.Type: ApplicationFiled: October 29, 2019Publication date: November 18, 2021Applicant: TECHNISCHE UNIVERSITÄT BERLINInventors: Ludwig GREIF, Andrei SCHLIWA
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Patent number: 11174463Abstract: The present invention describes a method for producing de novo papillae comprising the steps of a) providing isolated dermal papilla fibroblasts (DPF) from at least one dermal papilla (DP) from at least one hair follicle, b) providing isolated connective tissue sheath fibroblasts (CTSF) from at least one hair follicle and c) co-culturing the DPF with the CTSF under substantially non-adherent cell culture conditions to form spheroid cell aggregates.Type: GrantFiled: November 14, 2016Date of Patent: November 16, 2021Assignee: TECHNISCHE UNIVERSITÄT BERLINInventor: Gerd Lindner
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Publication number: 20210339314Abstract: Processes produce a compound material structure by producing a composite material which extends along an axis of elongation from carbon nanostructures anchored in a matrix of a first metal extending along the axis of elongation of the composite material. The processes comprise dividing the composite material into segments of the composite material, arranging the segments in a plane of a die matrix, filling free spaces in the die matrix with a filler material and subsequently sintering in the die matrix to form a compound material structure or squeeze casting in the die matrix, and exposing the carbon nanostructures of the composite material on at least one surface of the compound material structure such that the carbon nanostructures protrude out of this surface. Compound material structures and uses thereof as a heat conductor and/or a heat exchanger are also provided.Type: ApplicationFiled: July 1, 2019Publication date: November 4, 2021Applicant: TECHNISCHE UNIVERSITÄT BERLINInventors: Jens RIESSELMANN, Thomas HUTSCH, Thomas WEISSGÄRBER
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Publication number: 20210268481Abstract: A method of preparing a mesoporous carbon composite material having a mesoporous carbon phase and preformed metal nanoparticles located within the mesoporous carbon phase. The present invention also relates to a mesoporous carbon composite material and to a substrate having a film of such mesoporous carbon composite material.Type: ApplicationFiled: February 20, 2018Publication date: September 2, 2021Applicant: TECHNISCHE UNIVERSITÄT BERLINInventors: Denis BERNSMEIER, Ralph KRÄHNERT, René SACHSE
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Patent number: 11009166Abstract: The invention relates to a locking coupling including a first coupling unit and a second coupling unit, which in each case extend along a longitudinal axis and are designed to be identical. Each coupling unit includes a valve unit and a locking unit. The first and the second valve unit are designed to form a fluid connection between the first and the second coupling unit, and the first and the second locking unit are designed to connect the first coupling unit and the second coupling unit mechanically to one another. The first coupling unit includes an actuating element, by actuation of which the first and the second coupling unit can be mechanically connected to one another via the first and the second locking unit and can be fluidically connected to one another via the first and the second valve unit.Type: GrantFiled: July 12, 2017Date of Patent: May 18, 2021Assignee: Technische Universität BerlinInventor: Lars Dornburg
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Patent number: 10992353Abstract: Communication systems and methods in accordance with various embodiments of the invention utilize modulation on zeros. Carrier frequency offsets (CFO) can result in an unknown rotation of all zeros of a received signal's z-transform. Therefore, a binary MOCZ scheme (BMOCZ) can be utilized in which the modulated binary data is encoded using a cycling register code (e.g. CPC or ACPC), enabling receivers to determine cyclic shifts in the BMOCZ symbol resulting from a CFO. Receivers in accordance with several embodiments of the invention include decoders capable of decoding information bits from received discrete-time baseband signals by: estimating a timing offset for the received signal; determining a plurality of zeros of a z-transform of the received symbol; identifying zeros from the plurality of zeros that encode received bits by correcting fractional rotations resulting from the CFO; and decoding information bits based upon the received bits using a cycling register code.Type: GrantFiled: September 4, 2020Date of Patent: April 27, 2021Assignees: California Institute of Technology, The Regents of the University of California, Technische Universität BerlinInventors: Philipp Walk, Babak Hassibi, Peter Jung, Hamid Jafarkhani