Novel three-dimensional, conformal microelectrode arrays for interrogating and manipulating three-dimensional cell culture systems
A flexible, biocompatible microelectrode array wraps around 3D cell cultures such as organoids, enabling comprehensive electrical recording and stimulation for advanced research, drug testing, and personalized medicine, overcoming the limitations of traditional flat electrode arrays.
Background:
Three-dimensional (3D) cell culture systems, such as...
Published: 1/26/2026
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Inventor(s): Susan Sharfstein, Nathaniel Cady, Yubing Xie, Natalya Tokranova, Anthony Manning, Fernando Pesantez Torres
Keywords(s): 3D culture, 3D flexible microelectrode, electrophysiology, microelectrode array, microfabrication, neurodegeneration, organoid, polymer materials, Technologies
Category(s): Campus > University at Albany, Technology Classifications > Biomedical Science and Engineering
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Improved ReRAM: A New Method for Memory Chip Manufacture
A new method of producing ReRAM chips more suitable for neuromorphic computer systems, AI, and other applications. Background: Chip manufacturers are actively pursuing the development of powerful, next-generation memory chips. One of these emerging technologies is ReRAM (resistive random access memory) which can preserve massive amounts of RAM data...
Published: 12/9/2025
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Inventor(s): Nathaniel Cady, Karsten Beckmann, Joseph Van Nostrand
Keywords(s): artificial intelligence
Category(s): Technology Classifications > Artificial Intelligence, Technology Classifications > Computers, Technology Classifications > Electronics, Technology Classifications > Nanotechnology, Campus > SUNY Polytechnic Institute
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A Rapid, High Content, Reagent Sparing, Fluorescent Plasmonic Assay Platform for Multiplexed Serum Antibody Detection in Lyme Disease and COVID-19
A protein microarray, in the form of a compact biochip, that can be analyzed with high sensitivity using GC-FP technology.
Background:
Some infectious diseases are easy to diagnose, but others are much more difficult. One example is Lyme disease (B. burgdorferi), which is caused by a slow-growing organism that takes many weeks to detect. Current...
Published: 8/13/2025
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Inventor(s): Nathaniel Cady
Keywords(s): antibodies, assays, COVID-19, nanobioscience, nanobiotechnology, screens and assays, Technologies
Category(s): Technology Classifications > Biomedical Science and Engineering, Technology Classifications > Screens and Assays, Campus > SUNY Polytechnic Institute
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A Fluorescent Plasmonic Biochip Assay for Multiplex Screening of Diagnostic Serum Antibody Targets in Human Lyme Disease and COVID-19
A protein microarray, in the form of a compact biochip, that can be analyzed with high sensitivity using GC-FP technology.
Background: Some infectious diseases are easy to diagnose, but others are much more difficult. One example is Lyme disease (B. burgdorferi), which is caused by a slow-growing organism that takes many weeks to detect. Current testing...
Published: 8/13/2025
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Inventor(s): Nathaniel Cady
Keywords(s): COVID-19, detection, diagnostics
Category(s): Technology Classifications > Diagnostics, Campus > SUNY Polytechnic Institute
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Metal-Insulator-Metal Selector Device for Resistive Memory Based on Sub-Band Conduction in Large Band-Gap Insulators
A new selector device that contains no toxic materials and is ideal for use in applications requiring ultra-dense memory, such as AI and ML. Background: Selector devices play an important role in ultra-dense memory -- the powerful memory arrays used in applications such as artificial intelligence and machine learning. The two-terminal selector devices...
Published: 10/23/2025
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Inventor(s): Nathaniel Cady, Karsten Beckmann
Keywords(s):
Category(s): Campus > SUNY Polytechnic Institute, Technology Classifications > Electronics, Technology Classifications > Nanotechnology
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Polymeric Micro-Cantilevers for Ultra-Low Volume Fluid and Living Cell Deposition
Improves upon existing grooved cantilever designs by creating cantilevers from polymeric materials.
Background:
Microcantilevers have been used for a variety of nano and microscale printing techniques including dip-pen nanolithography (DPN, a scanning probe lithography technique where an atomic force microscope tip is used to create patterns directly...
Published: 5/13/2025
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Inventor(s): Nathaniel Cady, Magnus Bergkvist, Alison Gracias
Keywords(s): Technologies
Category(s): Campus > SUNY Polytechnic Institute, Technology Classifications > Engineering, Technology Classifications > Materials and Chemicals, Technology Classifications > Nanotechnology
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