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Lithium Ion Conducting Polymer Resin for In-Situ Curing of Cathode Binder and Electrolyte Layer for All Solid State Composite Lithium Batteries

Innovative polymer enhances solid-state batteries by improving structure and ion movement, simplifying assembly and boosting performance. https://nu.technologypublisher.com/files/sites/adobestock_805635617_(1).jpeg https://nu.testtechnologypublisher.com/files/sites/mark-saulich-5.jpg Source by By Ryan/ Adobe stock file # 805635617 Background Solid...

Published: 1/27/2025 | Updated: 6/24/2024 | Inventor(s): Sanjeev Mukerjee, Derrick Maxwell, Max Rutman, Luisa Gomes

Keywords(s): Battery, Battery Electrode Binder, Chemistry, Curable Resin, electrochemistry, Electrode, Electrode ink, Energy, Energy Technology, Manufacturing, Materials, Polymer, Solid-state batteries, Solid-state electrolyte

Category(s): Technology Classifications, Technology Classifications > 2. Physical Science

Rheology-Informed Neural Networks for complex fluids

INV-21050 Background Many complex and structured fluids exhibit a wide range of rheological responses to different flow characteristics. The ability to predict this complex rheological behavior is essential in better understanding and designing these complex fluids and their processing conditions. Despite the increasing trend in using artificial...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Mohammadamin Mahmoudabadbozchelou, Safa Jamali

Keywords(s): 3D Printer, Adaptive, Artificial intelligence, Biotech, Computational Modeling, Deep learning, Fabrication, Machine Learning, Manufacturing, Materials, Oil/petroleum, Process Engineering

Category(s): -Oil and Gas, Technology Classifications > 3. Computer Science, Technology Classifications > 2. Physical Science, Technology Classifications > 3. Computer Science > AI, Technology Classifications > 3. Computer Science > Neural Networks

Robust Self-Regeneratable Stiff Living Materials

INV-20116 Background Most biomaterials (e.g. wood, silk) found in nature are formed at ambient conditions and degrade naturally to enable a sustainable ecosystem. In contrast, the production of human-made materials (e.g. cement, plastics) requires high temperatures or harsh chemical treatments, while their non-biodegradability unfavorably affects...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Neel Joshi, Anna Duraj-Thatte, Avinash Manjula-Basavanna

Keywords(s): Biomaterials, Biotech, Environment, Living Materials, Manufacturing, Materials, Regeneration

Category(s): Technology Classifications > 1. Life Science > Biotechnology, Technology Classifications > 2. Physical Science > Advanced materials/Nanomaterials, Technology Classifications > 2. Physical Science > Manufacturing

Core loss suppression with sustained soft magnetic properties in ferromagnetic metal - ferrite composites for high frequency inductor applications

INV-20096 Background We face many technological challenges related to wireless communication and the rapid transfer of large amounts of data. Major advances in addressing these challenges are being driven by the advent of 5G (and, soon to be 6G) revolution. To meet 5G requirements and performance demands, new materials are required to resolve...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Parisa Andalib, Vincent Harris

Keywords(s): Electromagnetics, Electronics, Ferromagnet, Magnetics, Materials

Category(s): -Communications, -Materials, Technology Classifications > 3. Computer Science > Data Storage

Tunable and Reconfigurable Atomically Thin Heterostructures

3 layers can form rotationally-aligned stacks with long-range crystallographic order. Our theory predicts and experiments reveal striking electronic and optical changes when Bi2Se3 is stacked layer-by-layer on monolayer MoS2, including the formation of an indirect bandgap and 100% photoluminescence (PL) suppression, tunable transmittance-edge (1.1 eV®0.75...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Swastik Kar, Fangze Liu, Christopher Lane, Daniel Rubin, Arun Bansil, Anthony Vargas, Zachariah Hennighausen

Keywords(s): Data Storage, Devices, Electronics, Energy Technology, Materials, Memory, Optoelectronics

Category(s): -Chemistry, -Materials, -Optics, -Nanotechnology, -Sensors tech, Technology Classifications > 2. Physical Science > Electronics/Semiconductors

Methods and Compositions for Ex Vivo Generation of Developmentally Competent Eggs from Germline Cells Using Autologous Cell Systems

INV-14038 Background According to the latest CDC records, about 12% of women aged 15-44 are suffering from some sorts of infertility; yet, less than 2% of infertile couples actually undergo assisted reproductive therapy (ART). Besides the prohibitive cost of infertility treatments, many factors, including diminished population of immature egg cells...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Jonathan Tilly, Dori Woods

Keywords(s): Biotech, Materials, Medical Device, Method

Category(s): -Materials, -Method, -Biology, Technology Classifications > 1. Life Science > Medical Devices

Chemical Sensing with Fibrous Materials

INV-14037 Background Conventionally, various types of sensor elements have been used for detection of physiological analytes. Some of the most common ones are nanosensors and microworms. In vivo use of nanosensors has been limited by cellular uptake and diffusion into biological systems. Microworm sensors can overcome such limitations of nanosensors;...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Heather Clark, Timothy Ruckh, Mary Katharine Balaconis

Keywords(s): Diagnostics, Materials, Nanotechnology, Sensor Technology

Category(s): -Sensors tech, -Nanotechnology, -Materials, Diagnostics

Aluminum Nitride Piezoelectric NEMS devices using 2-Dimensional Electrode Material

INV-13074 Background Traditional IR detectors based on semiconductor photon-detectors need cryogenic cooling, making them bulky, costly and inconvenient to use. Uncooled IR thermal detectors based on bolometric principle have been recently developed, which are much smaller, lighter, cheaper and power-efficient, making them good alternatives to semiconductor...

Published: 1/27/2025 | Updated: 3/21/2024 | Inventor(s): Matteo Rinaldi, Yu Hui, Zhenyun Qian

Keywords(s): Materials, Mechanical, MEMS, Nanotechnology, Sensor Technology

Category(s): -Sensors tech, -Nanotechnology, -Chemistry, -Materials