Optoelectronic Devices Based on Thin Single-Crystalline Semiconductor Films and Non-Epitaxial Optical Cavities
A novel nanoscale optoelectronic device comprising ultrathin materials with single-crystalline quality providing a strong light-matter interaction with high photon absorption and quantum efficiency.
Background:
Miniaturization of optoelectronic devices offers tremendous performance gain. As the volume of photoactive material decreases, optoelectronic...
Published: 12/4/2020
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Inventor(s): Qiaoqiang Gan (UB), Haomin Song (UB), Zhenqiang Ma (non-UB), Zhenyang Xia (non-UB), Zongfu Yu (non-UB) (WARF), Ming Zhou (non-UB)
Keywords(s): Technologies
Category(s): Technology Classifications > Electronics, Technology Classifications > Optics and Photonics, Technology Classifications > Energy, Campus > University at Buffalo
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Protein Dynamical Mapping for Allosteric Drug Testing
An instrument and method for identification of potential allosteric sites through the measurement of a protein's long-range vibrations.
Background:
Conventional approaches for drug design are largely focused on exploiting sites where other molecules are known to bind (i.e. active sites). Because a protein’s active site can possess...
Published: 12/2/2020
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Inventor(s): Andrea Markelz, Katherine Niessen
Keywords(s): Technologies
Category(s): Technology Classifications > Instrumentation, Technology Classifications > Optics and Photonics, Campus > University at Buffalo
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Protein Dynamical Mapping for Allosteric Drug Targeting
An instrument and method for identification of potential allosteric sites through the measurement of a protein's long-range vibrations.
Background:
Conventional approaches for drug design are largely focused on exploiting sites where other molecules are known to bind (i.e. active sites). Because a protein’s active site can possess...
Published: 12/1/2020
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Inventor(s): Andrea Markelz, Katherine Niessen, Gheorghe Acbas
Keywords(s): Technologies
Category(s): Technology Classifications > Instrumentation, Technology Classifications > Optics and Photonics, Campus > University at Buffalo
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Graphene-based Plasmonic Nano-transceiver for Terahertz Band Communication
Current wireless systems operate at frequencies around or below 5 GHz. As the frequency increases, as does the bandwidth, and ultimately, as do the achievable data transfer rates. However, as frequency increases, so does propagation loss, or the loss of power density, from the expansion of the radio wave in free space, ultimately hindering the ability...
Published: 11/18/2020
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Inventor(s): Josep Jornet, Ian Akyildiz (non-UB)
Keywords(s): Technologies
Category(s): Technology Classifications > Imaging, Technology Classifications > Optics and Photonics, Technology Classifications > Sensors, Technology Classifications > Wireless, Campus > University at Buffalo
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