Quantization in Gate-All-Around Field Effect Transistors
A design for quantization of electron states in the channel of gate-all-around field-effect transistors (GAAFET).
Background:
The semiconductor industry constantly pushes innovation, demanding research and development into new materials, manufacturing processes, and designs. Silicon is the most widely used semiconductor material in the electronic...
Published: 7/31/2025
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Inventor(s): Hong Luo, Piaohan Xu
Keywords(s): Featured, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications > Bioinformatics, Technology Classifications > Computers, Technology Classifications > Electronics, Technology Classifications > Energy, Technology Classifications > Instrumentation, Technology Classifications > Nanotechnology
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Ga₂O₃ Vertical MOSFET for Enhanced Power Management
A vertical trench MOSFET using a unique in-situ Mg-doped current blocking layer to enable high-voltage operation with enhanced efficiency and robustness in power electronic devices.
Background:
This technology addresses the need for high-voltage power devices suitable for grid and traction applications, overcoming the limitations of traditional silicon-based...
Published: 7/31/2025
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Inventor(s): Uttam Singisetti, Hongping Zhao, Sudipto Saha, Lingyu Meng, Dong Yu
Keywords(s): Featured, Semiconductor and Microprocessing, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications > Energy, Technology Classifications > Electronics
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ALD-enabled High-Performance Membranes for Gas Separation
Polymer-based membranes developed with high H2/CO2 selectivity using facile surface nanoengineering for higher energy efficiency and lower cost production.
Background:
Isolation of CO2 from mixtures containing H2 is a critical gas separation, producing 94 million metric tons of H2 worldwide and valued at $170 billion in 2021. This market will continue...
Published: 7/31/2025
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Inventor(s): Haiqing Lin, Won-IL Lee, Chang-Yong Nam, Leiqing Hu, Kim Kisslinger, Vinh Bui, Ashwanth Subramanian
Keywords(s): Featured, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications > Materials and Chemicals, Technology Classifications > Clean Energy, Technology Classifications > Environment
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Method for In Vivo Detection of Cell-Surface Disease Markers
A pair of compatible reagents, one antibody-based biomarker target and one small molecule PET tracer, combine to provide a high affinity, disease specific detection system.
Background:
The medical diagnostics industry has an urgent demand for efficient non-invasive biomarkers to diagnose and stage disease progression for cancer and Alzheimer's...
Published: 7/31/2025
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Inventor(s): Qing Lin, Ming Fang, Gangam Kumar
Keywords(s): Featured, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications, Technology Classifications > Healthcare, Technology Classifications > Medical Imaging
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Benzodiazepinone-derived Inhibitors of EGFR and HER2
A class of benzodiazepinone-derived molecules, inhibitors of both triple mutant EGFR and HER2, for cancer therapeutics or biochemical research tools.
Background:
Inhibition of epithelial growth factor receptor (EGFR) as a non-small cell lung cancer (NSCLC) therapeutic is not a new concept, but 75% of patients die within five years of diagnosis. As...
Published: 7/31/2025
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Inventor(s): David Heppner, Stefan Laufer, Florian Wittlinger, Blessing Ogboo, Calvin Pham, Alexander Rasch
Keywords(s): Featured, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications > Therapeutics and Vaccines, Technology Classifications > Materials and Chemicals
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Ceramic Membranes for Organic Solvent Nanofiltration
Highly stable nanoporous membranes that enable ultrafast and precise solvent separation.
Background:
Given the volume of solvents, catalysts and products used and produced in the chemical, energy, and pharmaceutical industries, there is a strong need for efficient and cost-effective means for their separation. At present, industrial separation...
Published: 7/31/2025
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Inventor(s): Miao Yu, Bratin Sengupta, Qiaobei Dong
Keywords(s): Featured, Technologies
Category(s): Campus > University at Buffalo, Technology Classifications > Nanotechnology, Technology Classifications > Energy Conservation
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Low Cost Mechanically Robust Silica Aerogel Technology
A low-cost mechanically robust silica aerogel technology enhances fiber-based building insulation R-value performance, soundproofing, thermal barrier textiles fabrics, ceramic foams, papers and composites thereof.
Background:
Energy efficiency in buildings, aerospace, extreme environments and many other sectors seek low cost, scalable, lightweight...
Published: 12/10/2020
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Inventor(s): Lu An
Keywords(s): Technologies
Category(s): Campus > University at Buffalo
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Nature-inspired Functionally-graded UHMWPE + Kevlar Composites Achieve Extraordinarily High Strength
Nature-inspired polymers are achieved using unique processing to yield functional gradient composites with embedded Kevlar fibers exhibiting extraordinarily high strength lightweight UHMWPE materials.
Background:
Demand for new energy absorption materials and implantable polymeric biomaterials has increased significantly in recent years. The...
Published: 11/19/2020
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Inventor(s):
Keywords(s): Technologies
Category(s): Campus > University at Buffalo
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Systems and Methods for Identifying Electronic Devices
A low-cost, portable system for detecting hidden electronic device threats (e.g. spy camera, bugs, weapons) utilizing nonlinear response effects from radio frequency signals.
Background:
Modern electronic devices (e-devices), such as spy cameras, bugs or weapons, can be sealed in parcels and boxes, hidden under clothing, or disguised with cardboard...
Published: 11/20/2020
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Inventor(s):
Keywords(s): Featured, Technologies
Category(s): Technology Classifications > Computers, Technology Classifications > Electronics, Technology Classifications > Imaging, Technology Classifications > Information Technology, Campus > University at Buffalo
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Mechanical Energy Harvesting and Storage Device
An apparatus and method for harvesting mechanical energy, such as environmental vibrations, and both converting and storing said energy into direct current (DC) electricity.
Background:
The growing demand for powering wireless sensor networks, wearable devices and the like has led to increased interest in mechanical energy harvesting and storage...
Published: 12/2/2020
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Inventor(s):
Keywords(s): Technologies
Category(s): Campus > University at Buffalo
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