Advanced Sensor Arrays for Precise Gas Identification and Analysis
TS-066250 — A cutting-edge sensor system featuring p-n junctions in MOS materials for accurate detection and identification
of gases.
In various industries, there is a growing demand for highly selective and sensitive gas sensors capable of accurately identifying specific gases within complex mixtures, addressing challenges in environmental monitoring, industrial safety, and healthcare diagnostics.
This innovative sensor syst…
- College: College
of
Arts
&
Sciences
- Inventors: Dutta, Prabir; Govindhan, Maduraiveeran; Mondal, Suvra; Sun, Chenhu
- Licensing Officer: Zinn, Ryan
Revolutionary NO Sensor for Highly Selective and Sensitive Gas Detection
TS-066249 — A novel sensor leveraging WO3 and Cr2O3 for selective NO detection in harsh environments and breath analysis with high sensitivity at ppb levels.
There is a critical demand for advanced gas sensors capable of selectively detecting nitric oxide (NO) in diverse applications such as environmental monitoring, industrial processes, and medical diagnostics, particularly in challenging environments with interfering gases like carbon monoxide (CO).…
- College: College
of
Arts
&
Sciences
- Inventors: Dutta, Prabir; Govindhan, Maduraiveeran; Mondal, Suvra; Sun, Chenhu
- Licensing Officer: Zinn, Ryan
Metal oxide-based resistive type sensor for the detection of carbon monoxide at room temperature
TS-066246 — Our innovative CO sensor utilizes hydrated ruthenium oxide to detect carbon monoxide within a gas mixture with high sensitivity and selectivity at temperatures ranging from 25
°C to 300
°C.
Reliable and low-cost CO sensors with high sensitivity and selectivity are essential for environmental safety and industrial control, particularly to monitor combustion environments, automotive emissions, and various industrial processes, ensuring compliance with regulations and minimizing health …
- College: College
of
Arts
&
Sciences
- Inventors: Dutta, Prabir; Adeyemo, Adedunni
- Licensing Officer: Zinn, Ryan
Innovative High-Temperature NOx Sensor for Combustion Control
TS-066239 —
There is a critical need for advanced high-temperature NOx sensors to accurately monitor and control combustion environments, ensuring compliance with government regulations and mitigating the harmful effects of NOx on ecosystems and public health.
Our new NOx sensor is designed to detect total…
- College: College
of
Arts
&
Sciences
- Inventors: Dutta, Prabir; Yang, Jiun-Chan
- Licensing Officer: Zinn, Ryan
Compact High-Temperature Solid-State Potentiometric Oxygen Sensor
TS-066235 —
Oxygen sensors are crucial for monitoring oxygen levels in combustion and industrial processes, but current sensors require complex plumbing for reference gas, limiting their placement and operational temperature range. There is a pressing need for a robust, high-temperature oxygen sensor that is …
- College: College
of
Arts
&
Sciences
- Inventors: Dutta, Prabir; Akbar, Sheikh; Ramasamy, Ramamoorthy; Routbort, Jules; Singh, Dileep; Spirig, John
- Licensing Officer: Zinn, Ryan
Unlocking Quantum Communication: Empowering Entangled Photon Pairs with Temperature-Insensitive Technology
TS-065416 — The Need: In the rapidly advancing realm of quantum information science, there's an escalating demand for reliable sources of entangled photon pairs. These photon pairs serve as fundamental building blocks for various quantum communication technologies. Presently, maintaining these sources neces…
- College: College
of
Arts
&
Sciences
- Inventors: Gauthier, Daniel
- Licensing Officer: Dahlman, Jason "Jay"
Quantum Leap: Revolutionizing Computing and Sensing with Modular Zero-Dimensional Tunnel Junction Devices
TS-065414 — The Need:
Innovations in the field of quantum technology are paramount to addressing the escalating demand for advanced computational capabilities and sensitive sensor applications. As traditional computing methodologies reach their limits, there arises an urgent commercial need for breakthroughs i…
- College: College
of
Arts
&
Sciences
- Inventors: Johnston-Halperin, Ezekiel; Gupta, Jay; Hamilton, Morgan; Kavand, Marzieh; Koll, Will; Perez-Hoyos, Ethel; Phillips, Zoe
- Licensing Officer: Dahlman, Jason "Jay"
Methods to improve the jitter and time walk of integrated constant fraction discriminators
TS-064826 — The Need
Accurate measurements of energy and time-of-arrival of photons, particles, or ionizing radiation are crucial for identifying individual particles and enhancing spatial and temporal resolution in various systems. Technologies such as Light Detection and Ranging (LiDAR), positron emission to…
- College: College
of
Arts
&
Sciences
- Inventors: Kagan, Harris; Abusareya, Mo'men; Khalil, Waleed; Smith, Dale "Shane"
- Licensing Officer: Dahlman, Jason "Jay"
COLMARppm: web-server tool for prediction of NMR chemical shifts
TS-064585 — COLMARppm offers a swift and accurate solution to the longstanding challenges in metabolomics research. Unique features and capabilities position it as a crucial tool for researchers seeking to unlock unknown metabolites, contributing to health research
The Need
In the field of metabolomics resear…
- College: College
of
Arts
&
Sciences
- Inventors: Bruschweiler, Rafael; Li, Dawei "Dawei"; Rigel, Nick
- Licensing Officer: Dahlman, Jason "Jay"
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