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Mercury-indium-sulfide nanocrystals: A new member of the family of ternary in based chalcogenides
Stroyuk, O., Raevskaya, A., Spranger, F., Selyshchev, O., Dzhagan, V., Solonenko, D., Gaponik, N., Zahn, D. R. T. & Eychmüller, A., 14 Okt. 2019, in: The Journal of Chemical Physics.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Mesenchymal stem cells cultured on magnetic nanowire substrates
Perez, J. E., Ravasi, T. & Technology, K. A. U. O. S., 2016, in: Nanotechnology. 28, 5, S. 055703 1 S.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metal-insulator-metal injector for ballistic electron emission spectroscopy
Heer, R., Rakoczy, D., Ploner, G., Strasser, G., Gornik, E. & Smoliner, J., 1999, in: Applied Physics Letters. 75, 25, S. 4007-4009 3 S.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metal–Organic Frameworks Meet Molecularly Imprinted Polymers: Insights and Prospects for Sensor Applications
Ait Lahcen, A., surya, S., Beduk, T., Vijjapu, M. T., Lamaoui, A., Durmus, C., Timur, S., Shekhah, O., Mani, V., Amine, A., Eddaoudi, M. & Salama, K. N., 31 Okt. 2022, in: ACS Applied Materials and Interfaces.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metamaterial-Based Circularly Polarized Wearable Antenna for ISM and 5G Communications
Saeidi, T., Gokdemir, M. & Karamzadeh, S., 2022, 2022 30th Signal Processing and Communications Applications Conference (SIU).Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung
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Metamaterial description of magnonic modes along ΓM direction in a 2D antidot lattice
Zivieri, R. & Malago, P., 2013.Publikation: Konferenzbeitrag › Poster
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Metamaterial description of perpendicularly magnetized 2D antidot lattices
Malago, P., Giovannini, L. & Zivieri, R., 2015.Publikation: Konferenzbeitrag › Poster
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Metamaterial-enhanced vibrational absorption spectroscopy for the detection of protein molecules
Bui, T. S., Dao, T. D., Dang, L. H., Vu, L. D., Ohi, A., Nabatame, T., Lee, Y., Nagao, T. & Hoang, C. V., 2016, in: Scientific Reports.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metamaterial for tuneable compressive response in prosthetic liners
Khan, S., Martens, T. C. H. & Kosel, J., 12 Juni 2023.Publikation: Konferenzbeitrag › Poster
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Metamaterial lenses for monostatic and bistatic 77 GHz radar systems
Kohlberger, C., Hüttner, R., Wagner, C. & Stelzer, A., 5 Mai 2023, in: International Journal of Microwave and Wireless Technologies. S. 1-6 6 S.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metamaterial Lens for Monopulse Beamforming with a 77-GHz Long-Range Radar
Kohlberger, C., Hüttner, R. & Stelzer, A., 6 Apr. 2022, 2021 51st European Microwave Conference (EuMC). S. 253-256 4 S. 9784199Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung
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Metamaterial properties of a 3D permalloy/cobalt magnonic crystal
Zivieri, R. & Malago, P., 2013, 2013 7th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, METAMATERIALS 2013.Publikation: Konferenzband/Beitrag in Buch/Bericht › Konferenzartikel › Begutachtung
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Metamaterial properties of three-dimensional permalloy/cobalt magnonic crystals
Zivieri, R., Malago, P. & Giovannini, L., 2013.Publikation: Konferenzbeitrag › Poster
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Metasurface Interlaced SR CP Patch with the Capability to Change Polarization Diversity
Karamzadeh, S., Rafiei, V. & Saygin, H., 2021, in: Radioengineering.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Metglas--Elgiloy bi-layer, stent cell resonators for wireless monitoring of viscosity and mass loading
Viswanath, A., Green, S. R., Technology, K. A. U. O. S. & Gianchandani, Y. B., 2012, in: Journal of Micromechanics and Microengineering. 23, 2, S. 025010 1 S.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Methanol and Humidity Capacitive Sensors Based on Thin Films of MOF Nanoparticles
Vijjapu, M. T., 7 Jän. 2020, in: ACS Applied Materials and Interfaces.Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung
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Method and device for detecting the peak of the compressed histogram of pixel values in high resolution time-of-flight sensors
Vornicu, I., Carmona-Galan, R. & Rodriguez-Vazquez, A., März 2020Publikation: Schutzrecht › Patent
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Method and device for determining the density of a fluid
Rechberger, A. & Amsüss, R., 2020, Patent Nr. EP3012612B1, Prioritätsdatum 20 Okt. 2014Publikation: Schutzrecht › Patent
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Method and system for a subsampling based system integrated scope to enhance sample rate and resolution
Hueber, G. & Macnamara, I. T., 5 Feb. 2020, Patent Nr. CN110873816Publikation: Schutzrecht › Patent
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Method and system for a subsampling based system integrated scope to enhance sample rate and resolution
Hueber, G. & Macnamara, I. T., 5 Feb. 2020, Patent Nr. EP3618283Publikation: Schutzrecht › Patent
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Method and system for a subsampling based system integrated scope to enhance sample rate and resolution
Hueber, G. & Macnamara, I. T., 5 Feb. 2020, Patent Nr. US10396912Publikation: Schutzrecht › Patent
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Method and System for Attenuator Phase Compensation
Hueber, G. & Macnamara, I. T., 19 Mai 2020, Patent Nr. US10659009Publikation: Schutzrecht › Patent
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Method and System for Attenuator Phase Compensation
Hueber, G. & Macnamara, I. T., 8 Feb. 2018, Patent Nr. JP2018023099Publikation: Schutzrecht › Patent
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Method and System for Attenuator Phase Compensation
Hueber, G. & Macnamara, I. T., 24 Feb. 2021, Patent Nr. EP3280049Publikation: Schutzrecht › Patent
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Method and System for Attenuator Phase Compensation
Hueber, G. & Macnamara, I. T., 9 Feb. 2018, Patent Nr. CN107681988Publikation: Schutzrecht › Patent
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Method and system for automatic power control (APC) in a communcations device that communicates via inductive coupling
Hueber, G. & Macnamara, I. T., 18 Jän. 2020, Patent Nr. EP3319239Publikation: Schutzrecht › Patent
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Method and system for automatic power control (APC) in a communcations device that communicates via inductive coupling
Hueber, G. & Macnamara, I. T., 13 März 2018, Patent Nr. US9918280Publikation: Schutzrecht › Patent
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Method and system for automatic power control (APC) in a communcations device that communicates via inductive coupling
Hueber, G. & Macnamara, I. T., 25 Mai 2018, Patent Nr. CN108076448Publikation: Schutzrecht › Patent
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Method and system for automatic power control (APC) in a communications device that communicates via inductive coupling
Hueber, G. & Macnamara, I. T., 29 Okt. 2019, Patent Nr. US10461811Publikation: Schutzrecht › Patent
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Method and System for Generating a Received Signal Strength Indicator (RSSI) Value That Corresponds to a Radio Frequency (RF) Signal
Ding, J., Kranabenter, H., Mendel, S., Hueber, G. & Zipper, J., 26 Dez. 2017, Patent Nr. US9853752Publikation: Schutzrecht › Patent
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Method and System for Generating a Received Signal Strength Indicator (RSSI) Value That Corresponds to a Radio Frequency (RF) Signal
Ding, J., Kranabenter, H., Mendel, S., Hueber, G. & Zipper, J., 20 Okt. 2017, Patent Nr. CN107276699Publikation: Schutzrecht › Patent
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Method and System for Generating a Received Signal Strength Indicator (RSSI) Value That Corresponds to a Radio Frequency (RF) Signal
Ding, J., Kranabenter, H., Mendel, S., Hueber, G. & Zipper, J., 4 Okt. 2017, Patent Nr. EP3226447Publikation: Schutzrecht › Patent
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Method and system for high resolution tuning of the phase for active load modulation in a NFC system
Hueber, G. & Macnamara, I. T., 7 Feb. 2018, Patent Nr. EP3280061Publikation: Schutzrecht › Patent
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Method and system for high resolution tuning of the phase for active load modulation in a NFC system
Hueber, G. & Macnamara, I. T., 31 Okt. 2017, Patent Nr. US9806771Publikation: Schutzrecht › Patent
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Method and system for high resolution tuning of the phase for active load modulation in a NFC system
Hueber, G. & Macnamara, I. T., 9 Feb. 2018, Patent Nr. CN107682292Publikation: Schutzrecht › Patent
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Method and system for high resolution tuning of the phase for active load modulation in a NFC system
Hueber, G. & Macnamara, I. T., 8 Feb. 2018, Patent Nr. JP2018023098Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 4 Apr. 2019, Patent Nr. CN109560836Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 20 Aug. 2019, Patent Nr. US10390200Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 27 März 2019, Patent Nr. EP3461018Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 26 Juni 2018, Patent Nr. CN108206710Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T. & Ding, J., 27 März 2019, Patent Nr. EP3461017Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 27 Juni 2018, Patent Nr. KR2018007118Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T., Bruckbauer, J. & Watzinger, H., 8 Feb. 2018, Patent Nr. JP2018023097Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T. & Al-Kadi, G., 26 Juni 2018, Patent Nr. CN108206709Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T., Bruckbauer, J. & Watzinger, H., 7 Feb. 2018, Patent Nr. EP3280062Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T. & Al-Kadi, G., 29 Juni 2018, Patent Nr. EP3337050Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T. & Al-Kadi, G., 21 Juli 2020, Patent Nr. US10721604Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 2019, Patent Nr. EP3337051Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Macnamara, I. T., Bruckbauer, J. & Watzinger, H., 25 Aug. 2020, Patent Nr. US10756881Publikation: Schutzrecht › Patent
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Method and system for operating a communications device that communicates via inductive coupling
Hueber, G., Bruckbauer, J. & Merlin, E., 21 Juli 2020, Patent Nr. US10720967Publikation: Schutzrecht › Patent