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Tidal-Powered Off-Grid Desalination System

This invention introduces a self-sustaining desalination system powered directly by tidal energy. By coupling a hydrokinetic turbine to a centrifugal reverse osmosis module, it converts tidal motion into high-pressure water flow without electricity, achieving efficient, low-cost freshwater production for off-grid coastal and island regions. Background:...

Published: 10/10/2025 | Inventor(s): Cosan Daskiran, Mustafa Usta

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Tumor-pH–Triggered Doxorubicin Prodrug with On-Demand Shelf-Stable Precursor

This invention introduces a small-molecule doxorubicin prodrug that remains inert in blood and rapidly activates in the mildly acidic tumor microenvironment. Featuring a shelf-stable maleimide pre-prodrug that converts on demand to the ultra-acid-labile DMA form, it enables targeted chemotherapy with improved selectivity, scalable synthesis, and reduced...

Published: 10/10/2025 | Inventor(s): Ming An, Lan Yao, Vladyslav Nazarenko

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Bench-Top Radical Fluorination Platform for Fast, Selective C–F Bond Formation

This invention introduces a silver(II) fluoride (AgF₂) platform in acetonitrile that generates fluorine radicals at room temperature—enabling fast, selective C–F bond formation without added catalysts or exotic reagents. The method streamlines late-stage fluorination across diverse substrates, improving selectivity, scalability, and operational...

Published: 10/10/2025 | Inventor(s): Jennifer Hirschi, Mathew Vetticatt, Sudip Maji, Deepak Pradhan, Suchand Basuli

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Compact Multilevel Bidirectional Converter for High-Efficiency EV, Grid, and Aerospace Systems

This invention introduces a compact bidirectional AC-DC converter that merges power factor correction and resonant conversion into a single multilevel stage. By reducing device count, passive size, and DC-link capacitance while achieving soft switching and >98% efficiency, it enables scalable, high-density power conversion for EV charging, grid storage,...

Published: 10/3/2025 | Inventor(s): Kalyan Yenduri, Sunil Dube, Pritam Das, Benson Chan

Keywords(s):

Category(s): Campus > Binghamton University, Technology Classifications > Electronics

Niobium-Enhanced High-Nickel Cathodes for Longer-Lasting, Fast-Charging Li-ion Batteries

This technology introduces a one-step niobium modification that forms a LiNbO₃ surface layer and incorporates Nb⁵⁺ into nickel-rich layered cathodes (e.g., NMC 811). By simultaneously stabilizing the surface and bulk, it achieves higher first-cycle efficiency, faster charge rates, and dramatically improved cycling stability through a simple, scalable...

Published: 10/3/2025 | Inventor(s): Fengxia Xin, M. Whittingham

Keywords(s): CleanTech

Category(s): Campus > Binghamton University, Technology Classifications > Energy

Next-Generation Lithium Batteries with Niobium-Enhanced ε-VOPO₄ Cathodes

This invention introduces a niobium-modified ε-VOPO₄ cathode that achieves its full 305 mAh/g theoretical capacity with 98% coulombic efficiency. Featuring a stable 3D tunnel structure, dual voltage plateaus, and enhanced cycling durability, it enables high-performance, low-cost lithium batteries for EVs, grid storage, and advanced electronics....

Published: 10/3/2025 | Inventor(s): Krystal Lee, Carrie Siu, Fengxia Xin, M. Whittingham

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Next-Generation Lithium-Ion Batteries Enabled by ε-VOPO₄ Cathode Innovation

This invention introduces an ε-VOPO₄-based lithium-ion cathode that achieves its full theoretical capacity of 305 mAh/g with 98% coulombic efficiency. Using a novel slurry formulation and scalable electrode production method, it delivers high-capacity, stable, and cost-effective energy storage with simplified dual-voltage operation. Background:...

Published: 10/3/2025 | Inventor(s): Krystal Lee, M. Whittingham, Carrie Siu, Fengxia Xin

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Ultra-Sensitive Single-Layer MEMS Capacitive Platform with Repulsive Softening

This invention introduces a MEMS capacitive platform that cancels bias-induced stiffening with co-planar “repulsive” electrodes, boosting displacement response by over 6× without increasing noise, enabling simpler, smaller, and more sensitive microphones and sensors. Background: Capacitive MEMS sensors and actuators require a DC...

Published: 10/3/2025 | Inventor(s): Johar Pourghader, Ronald Miles

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Stealth Waveform for Deceiving RF Sensing and Imaging Radar Systems

This invention introduces a stealthy RF camouflage technique that uses optimized low-power waveforms to mislead radar imaging systems, hiding real targets or creating decoys under realistic conditions—offering far greater precision and concealment than jamming or spoofing. Background: Modern RF sensing and imaging systems, including mmWave...

Published: 10/3/2025 | Inventor(s): Lhamo Dorje, Xiaohua Li

Keywords(s): Technologies

Category(s): Campus > Binghamton University

Self-Assembling HER2 Nanobody Liposomes: Smarter Cancer Drug Delivery

This invention introduces a one-step self-assembly method that integrates HER2-targeted chimeric nanobodies directly into liposomal membranes, enabling scalable production of immunoliposomes with high drug encapsulation, improved tumor targeting, and reduced manufacturing complexity. Background: HER2-targeted therapies have shown promise for treating...

Published: 9/26/2025 | Inventor(s): Yuan Wan, Mofizur Rahman

Keywords(s): Technologies

Category(s): Campus > Binghamton University

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