Deuterium and Fluorine-18 Labeled Glutamine – a PET Imaging Agent with Enhanced in Vivo Stability
050- 9471 Deuterium and Fluorine-18 Labeled Glutamine – a PET Imaging Agent with Enhanced in Vivo Stability
This technology offers a powerful tool for elucidating in vivo glutamine metabolism with enhanced image clarity for cancer diagnosis
Background:
Accurate and comprehensive non-invasive imaging of cancer metabolism is crucial for diagnosis...
Published: 2/10/2026
|
Inventor(s): Wenchao Qu, Bao Hu, Hari Akula, Paul Vaska
Keywords(s):
Category(s): Technology Classifications > Medical Imaging, Technology Classifications > Nanotechnology, Technology Classifications > Research Tools and Reagents, Campus, Campus > Stony Brook University
|
Compact Optical-EEG for Recovery Prediction in the ICU
050-9573 Compact Optical-EEG for Recovery Prediction in the ICU
A machine learning-enabled, non-invasive brain monitoring system that integrates EEG with CW-DCS to access patient consciousness
Background:
Assessing consciousness levels in neuro intensive care units is a critical challenge for planning optimal interventions, particularly for patients...
Published: 1/29/2026
|
Inventor(s): Ulas Sunar
Keywords(s):
Category(s): Technology Classifications > Diagnostics, Technology Classifications > Medical Devices, Technology Classifications > Medical Imaging, Technology Classifications > Sensors, Technology Classifications > Optics and Photonics, Campus > Stony Brook University
|
Zinc sulfur batteries catalyzed by dichalcogenides
050- 9499 Zinc sulfur batteries catalyzed by dichalcogenides
A structurally stable catalyst to enhance the performance of zinc-sulfur aqueous batteries
Background:
Current battery technologies, predominantly lithium-ion, face significant drawbacks including high costs, reliance on scarce materials, and inherent safety risks like flammability....
Published: 1/29/2026
|
Inventor(s): Amy Marschilok, Kenneth Takeuchi, Esther Takeuchi
Keywords(s):
Category(s): Technology Classifications > Clean Energy, Technology Classifications > Energy Conservation, Campus > Stony Brook University
|
Fiber-delivered Ultrashort Pulses on Demand
050-9473 Fiber-delivered Ultrashort Pulses on Demand
A fully fiber-integrated system generating femtosecond laser pulses at arbitrary repetition rates while preserving pulse energy and shape
RSS.HDBackground> Background: <
There is an increasing demand for laser systems that can generate ultrashort, high-energy pulses with tunable repetition...
Published: 12/16/2025
|
Inventor(s): Michael Wahl, Thomas Allison, Yuanchi Qing, Myles Silfies, Alexander Adler
Keywords(s):
Category(s): Technology Classifications > Optics and Photonics, Campus > Stony Brook University
|
Wearable total-body electromagnetic motion tracking technology/sensor for artifact-free ultra-high resolution PET scanner
050-9414 3D CT Reconstruction from Few X-rays
A technology that reconstructs CT images by integrating implicit neural representation and conditional diffusion models
Background:
Computed Tomography (CT) imaging faces a persistent challenge in balancing the need for high-quality, accurate three-dimensional reconstructions with the imperative to...
Published: 1/29/2026
|
Inventor(s): Wanbin Tan, Amirhossein Goldan, Wei Zhao, Zipai Wang
Keywords(s):
Category(s): Technology Classifications > Diagnostics, Technology Classifications > Medical Devices, Technology Classifications > Medical Imaging, Campus > Stony Brook University
|
Mid-infrared avalanche photodiode with hole-initiated multiplication.
050-9450: Mid-infrared avalanche photodiode with hole-initiated multiplication
An advanced avalanche photodiode (APD) architecture designed to achieve low-noise, high-gain performance in the mid-infrared region
Background:
There is a growing demand for highly sensitive, low-noise photodetectors that can operate in the mid-infrared range for applications...
Published: 12/15/2025
|
Inventor(s): Leon Shterengas
Keywords(s):
Category(s): Technology Classifications > Nanotechnology, Technology Classifications > Optics and Photonics, Technology Classifications > Sensors, Campus, Campus > Stony Brook University
|
Non-invasive, In Vivo Enhancement of Immune Function and Immunotherapy by use of Low Intensity Vibration
A safe, non-invasive therapeutic strategy for augmenting immune function in an aging population
Background:
A primary consequence of aging is the progressive dysfunction of the immune system, which leaves the subject population more vulnerable to infection, illness, and cancer. This dysfunction can be attributed, in part, to a reduction in T cell...
Published: 11/3/2025
|
Inventor(s): Clinton Rubin, Christopher Ashdown
Keywords(s):
Category(s): Technology Classifications > Medical Devices, Campus, Campus > Stony Brook University
|
3D CT Reconstruction from Few X-rays
A technology that reconstructs CT images by integrating implicit neural representation and conditional diffusion models
Background:
Computed Tomography (CT) imaging faces a persistent challenge in balancing the need for high-quality, accurate three-dimensional reconstructions with the imperative to minimize patient radiation exposure and scanning...
Published: 10/15/2025
|
Inventor(s): Arie Kaufman, Gaofeng Deng
Keywords(s):
Category(s): Technology Classifications > Artificial Intelligence, Technology Classifications > Computer Software, Technology Classifications > Computers, Technology Classifications > Medical Imaging, Campus > Stony Brook University
|
A Novel Method to Assist the Orthopedic Surgeon in Bone Fracture Surgery
An inexpensive, powerful system that facilitates orthopedic fracture reduction by allowing surgeons to manipulate bone fragments virtually
Background:
Orthopaedic surgeons face significant challenges in accurately aligning broken bones during fracture repair, which is critical for restoring correct limb length, alignment, and rotation. Achieving...
Published: 10/7/2025
|
Inventor(s): Fazel Khan, Imin Kao
Keywords(s):
Category(s): Technology Classifications > Artificial Intelligence, Technology Classifications > Computers, Technology Classifications > Medical Devices, Technology Classifications > Medical Imaging, Campus > Stony Brook University
|
PELOTON code
A time-dependent, three-dimensional pellet ablation code developed to simulate the physical processes in thermonuclear fusion devices
Background:
In magnetic confinement fusion devices, precise control of pellet fueling and disruption mitigation is critical, yet predicting how cryogenic pellets interact with hot plasma remains a major challenge....
Published: 10/6/2025
|
Inventor(s): Roman Samulyak
Keywords(s):
Category(s): Technology Classifications > Computer Software, Campus > Stony Brook University
|