Search Results - Physical+Science

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1. Technology Overview The invention focuses on donor/acceptor nanohoops, which are novel, conjugated, hoop-shaped molecules designed for organic semiconducting materials. These nanohoops incorporate electron-donating and electron-accepting molecules into their structure, allowing for easy tuning of band gaps. The technology is currently in the development...

Published: 1/7/2026 | Inventor(s): Ramesh Jasti, Evan Darzi

Keywords(s): Biochemistry

Category(s): Nanoscience & Microtechnologies, Materials Science, Physical Science

Diindenoanthracene and Diindenopentacene

1. Technology Overview The invention focuses on diindenoanthracene (DIAn), a novel compound featuring mild biradical character with potential applications in singlet fission for organic photovoltaics and organic spin electronics. DIAn is designed with bulky mesityl and triisopropylsilylacetylene groups to stabilize reactive sites and prevent intermolecular...

Published: 1/7/2026 | Inventor(s): Michael Haley, Gabriel Rudebusch

Keywords(s):

Category(s): Materials Science, Physical Science, Sustainability & Cleantechnologies

Mechanical quantum networks of spin qubits with long range connectivity

1. Technology Overview The invention introduces a groundbreaking method for developing mechanical quantum networks of spin qubits with long-range connectivity using Wannier-Stark ladders of diamond Lamb wave resonators (LWRs). This innovative approach leverages the ultralow damping rates and excellent optical and spin properties of diamond LWRs to...

Published: 1/2/2026 | Inventor(s): Hailin Wang, Philip Andrango

Keywords(s):

Category(s): Communications, Nanoscience & Microtechnologies, Physical Science, Information Technology

Resonant excitation of compression mechanical modes in a mechanical resonator with an optical gradient force

1. Technology Overview The invention introduces ultracoherent GHz diamond spin-mechanical Lamb wave resonators (LWRs) protected by a phononic band gap. These resonators enable coherent interactions between single phonons and spins, providing a robust platform for quantum spin-mechanics. The technology leverages all-optical excitation and detection...

Published: 1/2/2026 | Inventor(s): Hailin Wang, Jens Noeckel, Xinzhu Li

Keywords(s):

Category(s): Communications, Nanoscience & Microtechnologies, Physical Science

3D-printed Ion Trap

1. Technology Overview The invention introduces a 3D-printed ion trap designed for quantum computing applications. This innovative device leverages additive 3D printing of glass structures to create ion traps that can be integrated onto wafers containing micro-fabricated elements. The technology offers significant potential for improving trapping...

Published: 1/7/2026 | Inventor(s): David Allcock, Tim Gardner, Morgan Brown, Alexander Quinn

Keywords(s):

Category(s): Materials Science, Information Technology, Nanoscience & Microtechnologies, Physical Science

Anion Sensing with nanoMOF Electrodes

1. Technology Overview The invention introduces a novel method for selective anion sensing using chromium triazolate metal-organic framework (MOF) nanocrystals. These nanocrystals enable the detection of anion identity and concentration through voltammetric sweeping, offering high selectivity, sensitivity, and reusability. The technology leverages...

Published: 1/7/2026 | Inventor(s): Carl Brozek, Jiawei Huang

Keywords(s):

Category(s): Chemistry, Diagnostics, Materials Science, Physical Science, Nanoscience & Microtechnologies

A fast, broadband, room-temperature graphene nanomechanical light detector

1. Technology Overview The invention focuses on a fast, broadband, room-temperature graphene nanomechanical light detector. This device detects light by measuring shifts in the mechanical resonance of suspended graphene, which changes its pitch when it absorbs light and warms up. The technology is currently in the development stage, with promising...

Published: 1/7/2026 | Inventor(s): Benjamin Aleman

Keywords(s): Science

Category(s): Communications, Engineering, Imaging, Nanoscience & Microtechnologies, Physical Science

A Device for Measuring Orbital States of Electrons

1. Technology Overview The invention focuses on a device for measuring orbital states of electrons, specifically their orbital angular momentum (OAM). This device uses spatially varying electric fields around needle electrodes to measure the quantized angular momentum of charged particles. The technology is currently in the development stage, with...

Published: 1/7/2026 | Inventor(s): Benjamin McMorran, Tyler Harvey

Keywords(s):

Category(s): Materials Science, Nanoscience & Microtechnologies, Physical Science

Device and method for creating Gaussian electron beams

University of Oregon Researchers: Benjamin McMorran Patent: 9,240,255 issued 1/19/2016 (UO-13-07) Device and Method for Creating Gaussian Electron Beams. Technology Background/Definition of Problem: Electron beams used in instrumentation such as scanning electron microscopes, transmission electron microscopes, microprobes, etc. exhibit numerous...

Published: 8/4/2025 | Inventor(s): Benjamin McMorran

Keywords(s):

Category(s): Engineering, Imaging, Materials Science, Nanoscience & Microtechnologies, Physical Science, Research Tools

All-Optical Multiplexer and De-multiplexer for Temporal Modes of Electromagnetic Radiation using Nonlinear Optical Cavities and Shaped Laser Pulses

1. Technology Overview The invention focuses on an all-optical multiplexer and de-multiplexer for temporal modes of electromagnetic radiation using nonlinear optical cavities and shaped laser pulses. This device selectively shifts the carrier frequency of temporal-mode components of electromagnetic pulses using nonlinear wave mixing in a microcavity...

Published: 1/7/2026 | Inventor(s): Michael Raymer, Dileep Reddy

Keywords(s): Science

Category(s): Communications, Engineering, Information Technology, Physical Science

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