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Molecular‑Like Hierarchical Self‑Assembly Platform for Advanced Particle Monolayers
Molecular‑Like Hierarchical Self‑Assembly Platform for Advanced Particle Monolayers (System and Method for Molecular‑Like Hierarchical Self‑Assembly of Monolayers of Mixtures of Particles, Tech ID: 14‑011)
Technology Overview This technology enables hierarchical self‑assembly of particle monolayers that behave in a molecular‑like fashion despite being...
Published: 2/13/2026
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Inventor(s): Pushpendra Singh
Keywords(s): Advanced Materials Processing, Coatings, Electrohydrodynamics, Microfluidic, Patent Issued, Self-assembled monolayers, Sensor
Category(s): Advanced Materials, Manufacturing & Process Technologies
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Thin‑Film Deposition with Embedded Self‑Assembled Monolayers for Functional Surfaces
Thin‑Film Deposition with Embedded Self‑Assembled Monolayers for Functional Surfaces (System and Method for Formation of Thin Films with Self‑Assembled Monolayers Embedded on their Surfaces, Tech ID: 13‑047)
Technology Overview: This NJIT technology enables the fabrication of thin films with embedded self‑assembled monolayers (SAMs), creating surfaces...
Published: 2/13/2026
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Inventor(s): Pushpendra Singh
Keywords(s): Coatings, Manufacturing, Patent Issued, semiconductor, Sensor, Thin films
Category(s): Advanced Materials, Manufacturing & Process Technologies
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Printable Flexible Conductive Inks for Wearable Electronics and Energy Storage
Printable Flexible Conductive Inks for Wearable Electronics and Energy Storage (Fabrication of Flexible Conductive Items and Batteries Using Modified Inks, Tech ID: 17‑001)
Technology Overview: This technology enables the fabrication of flexible conductive structures and batteries using modified, printable inks. The approach allows electronic components...
Published: 2/13/2026
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Inventor(s): Yuan Gu, John Federici
Keywords(s): Conductive Paint, Energy Harvesting, Energy Storage/Conversion, Patent Issued, Sensor, Wearable
Category(s): Energy, Batteries & Decarbonization
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Microelectrode Electrochemical Cell for Fast, Precise Reaction Contro
Microelectrode Electrochemical Cell for Fast, Precise Reaction Control (Microelectrode‑Based Electrochemical Cell, Tech ID: 22‑018)
Technology Overview: This technology features a microelectrode‑based electrochemical cell that enhances mass transport, kinetics, and signal fidelity. The architecture reduces ohmic losses and diffusion limitations, enabling...
Published: 2/13/2026
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Inventor(s): Sagnik Basuray, Zhenglong Li
Keywords(s): Chemical Analysis, Electrochemical, Electrosynthesis, Energy Storage/Conversion, kinetic, Microelectrode, Patent Pending, Research & Development (R&D), Sensor
Category(s): Diagnostics, Sensors & Analytical Platforms
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Ultra‑Sensitive MEMS Fiber‑Optic Microphone for Harsh and Remote Environments
Ultra‑Sensitive MEMS Fiber‑Optic Microphone for Harsh and Remote Environments (MEMS Fiber Optic Microphone, Tech ID: 06‑052)
Technology Overview: This is a micro‑electromechanical system (MEMS)–based fiber‑optic microphone designed for high‑sensitivity acoustic sensing in environments where conventional electronic microphones fail. The system...
Published: 2/13/2026
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Inventor(s): Ken Chin, Guan-Hua Feng, Harry Roman, Yan Sun
Keywords(s): Aerospace, Defense, Environmental Management, Environmental Systems, Monitor, Patent Issued, Sensor
Category(s): Computing, Communications & Photonics
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Implantable Optical Waveguide Conduits for Next‑Gen Neural Interfaces
Implantable Optical Waveguide Conduits for Next‑Gen Neural Interfaces (Biocompatible and Implantable Optical Conduits, Tech ID: 15‑023)
Technology Overview: This NJIT technology delivers biocompatible, implantable optical conduits that route light to and from deep or peripheral tissues for sensing, stimulation, and diagnostics. Engineered as flexible...
Published: 2/13/2026
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Inventor(s): Mesut Sahin, Ali Ersen
Keywords(s): Biocompatible, Implants, Optical sensing and sensors, Optics, Patent Issued, Sensor
Category(s): Medical Devices, Imaging & Digital Health
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Photoluminescent Hydrogel Platform for Bioimaging and Therapeutic Applications
Photoluminescent Hydrogel Platform for Bioimaging and Therapeutic Applications (Photoluminescent Hydrogel, Tech ID: 17‑010)
Technology Overview: This NJIT technology is a photoluminescent hydrogel that combines soft, biocompatible polymer networks with intrinsic light‑emitting properties. The hydrogel can be engineered to emit fluorescence under specific...
Published: 2/13/2026
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Inventor(s): Yunghao Tsou, Xiaoyang Xu
Keywords(s): Biocompatible, Biomedical, Hydrogel, Medical Imaging, Patent Issued, Photoluminescence, Sensor, Tissue Engineering
Category(s): Life Science and Engineering > Diagnosis/Therapeutics, Biomaterials & Regenerative Therapies
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