Available Technologies

# of Displayed Technologies: 20 / 27

Applied Category Filter (Click To Remove): Chemicals

Categories

Synthetic approaches for mitigating battery capacity loss in oxide anodes

TS-066056 — The Need The advancement of lithium-ion battery technology relies heavily on increasing energy density, yet practical usage of silicon (Si) anodes faces challenges due to parasitic side reactions and active lithium consumption. Controlling lithium amounts precisely while achieving uniform distribut…

College: College of Arts & Sciences
Inventors: Co, Anne; Hwang, Jisun; Lorie Lopez, Jose
Licensing Officer: Randhawa, Davinder

Anode synthesis using spray pyrolysis

TS-066037 — The Need In the realm of materials science and energy storage, there's a growing demand for innovative anode synthesis methods that yield materials with improved mechanical and electrochemical properties. Traditional synthesis techniques often fall short in achieving the desired performance met…

College: College of Arts & Sciences
Inventors: Co, Anne; Lorie Lopez, Jose
Licensing Officer: Randhawa, Davinder

Metal nitric oxides redox flow batteries

TS-066016 — The Need Redox flow batteries (RFBs) offer a promising solution for storing intermittent renewable energy in the electrical grid. However, their reliance on finite and unsustainable transition metals, such as vanadium, poses significant sustainability challenges. The rising costs and environmental …

College: College of Arts & Sciences
Inventors: Zhang, Shiyu; Park, Jaehyun
Licensing Officer: Randhawa, Davinder

Highly Efficient Light Olefin Selectivity & Production Process

TS-065422 — Light olefins, such as ethylene and propylene, are essential building blocks in the petrochemical industry and have a wide range of uses in various applications. The most common uses for olefins include polymers, chemical intermediates, solvents, rubber, and nanomaterials, among others.

Although Light olefins are used globally in many products, the catalytic processes to produce them are energy intensive with a large carbon footprint and the production of greenhouse gases and water pollution. As a result, substantial efforts are being made in the industry to develop more sustain…

College: College of Engineering (COE)
Inventors: Ozkan, Umit; Gunduz, Seval; Kim, Jaesung
Licensing Officer: Zinn, Ryan

Revolutionizing Hydrogen Production and CO2 Capture for a Sustainable Future

TS-065143 — The Need: In the face of pressing environmental concerns and the imperative for sustainable energy solutions, there arises a critical commercial need for systems and methods that can efficiently produce hydrogen (H2) while simultaneously capturing and converting carbon dioxide (CO2) emissions. Trad…

College: College of Arts & Sciences
Inventors: Baker, Lawrence "Robert"
Licensing Officer: Panic, Ana

Earth-Abundant Transition Metal Catalysts for Sustainable Hydrofunctionalization Reactions

TS-064828 — The Need: Transition metal-catalyzed hydroelementation reactions address a critical demand in various industries by facilitating the addition of H-E (E = H, Si, B) across C-C double bonds. These reactions are vital in the chemical sector, particularly in the petrochemical, pharmaceutical, agrochemic…

College: College of Arts & Sciences
Inventors: Thomas, Christine; Fitzsimmons, Matthew
Licensing Officer: Dahlman, Jason "Jay"

Revolutionizing Pharmaceutical Synthesis: Advancements in Metal-Catalyzed Coupling Technology

TS-064824 — The Need In the pharmaceutical industry, the synthesis of complex organic substrates is crucial for the development of life-saving medications. However, traditional metal-catalyzed coupling reactions often face significant challenges when applied to these complex substrates, leading to high failure…

College: College of Arts & Sciences
Inventors: Sevov, Christo; Dinh, Long; Hamby, Taylor; Starbuck, Hunter
Licensing Officer: Panic, Ana

Electrocatalytic grafting and modification of polyvinylchlorides and chloroparaffins

TS-064268 — Polyvinylchloride (PVC) is a widely used plastic, but its inherent limitations—brittleness, thermal instability, and poor shear strength—pose significant challenges for diverse applications, from medical packaging to construction. Conventional PVC modification relies on high loadings o…

College: College of Arts & Sciences
Inventors: Sevov, Christo; Truesdell, Blaise
Licensing Officer: Panic, Ana

Direct Current Generation By Recycling Omnipresent EM Waves

TS-063309 — The Need Over five billion wireless devices are connected to wireless service providers worldwide, with a constant emergence of new and improved technologies. Fifth Generation (5G) wireless technologies are rapidly being deployed due to the demand for fast and more reliable services for mobile user…

College: College of Engineering (COE)
Inventors: Wang, Xiaoguang; Lyu, Hualiang
Licensing Officer: Randhawa, Davinder

Fast-charging anodes for lithium-ion batteries

TS-063224 — The Need In the rapidly evolving landscape of electric vehicle (EV) technology, there exists a pressing commercial need for rechargeable lithium-ion batteries (LiBs) that can not only deliver high charge capacities and power densities but also address the critical issues of capacity fading and safe…

College: College of Engineering (COE)
Inventors: Kim, Jung Hyun; Jiao, Xinwei "Jocelyn"; Yap, Jun Wei; Yu, Chanyeop
Licensing Officer: Randhawa, Davinder

Post synthetic incorporation of Ti into zeolite Beta via defect sites originating from methyl-silanes and its impacts on epoxidation and reduction reactions

TS-062968 — A novel method of creating catalytic material containing paired Lewis acids in combination with alkyl-metal precursors for improving the production of materials used in agricultural, chemical, and other commercial/industrial applications/processes.

More efficient techniques to create catalytic material are required to enable higher efficiencies and other performance improvements when used for manufacturing of specialty chemicals and other compounds. The conventional methods whereby Lewis acids play a role in catalysis has some key limitation…

College: College of Engineering (COE)
Inventors: Brunelli, Nicholas "Nick"; Spanos, Alex
Licensing Officer: Randhawa, Davinder

Tuning the nature of the catalytic site through synthesizing Lewis acid zeolite Beta with alkyl-Sn precursors

TS-062967 — Novel method capable of using alkyl tin compounds to generate Lewis acid zeolite Sn-Beta.

Conventional approaches used in chemical processes such as synthesis for production of materials involve formation of catalytic sites within the process framework. Current methods used for catalytic site creation tend to be long and result in increased production costs. This is partially due to re…

College: College of Engineering (COE)
Inventors: Brunelli, Nicholas "Nick"; Spanos, Alexander
Licensing Officer: Randhawa, Davinder

pH-sensitive inhibitor release system for corrosion protection

TS-062835 — Coatings are broadly used to protect metallic structures from corrosion. However, aggressive acidic and alkaline conditions can both develop locally on the coated metal surface due to corrosion, leading to the failure of the coated structure. Commonly used smart coatings use a timed release of spe…

College: College of Engineering (COE)
Inventors: Li, Chao; Frankel, Gerald "Jerry"; Guo, Xiaolei
Licensing Officer: Zinn, Ryan

Heteroatom doped Carbon Nanostructures for Electrocatalytic Chlorine and Bromine Production

TS-062692 — Chlorine is used in production of many products, such as many polymers like polyvinyl chloride, polyurethanes and chloroaromatics. It is also used extensively in pharmaceuticals, pesticides, fiber optics, hypochlorite bleaches, and other commodities. However, the current method of producing chlori…

College: College of Engineering (COE)
Inventors: Ozkan, Umit; Jain, Deeksha; Mamtani, Kuldeep
Licensing Officer: Zinn, Ryan

Novel Efficient Butanol Production without CO2 Emission

TS-062607 — Chemicals and fuels from renewable resources have gained global interest due to environmental issues, climate change, oil price and supply volatility, and decreasing nonrenewable fossil fuel sources. Butanol is a biofuel alternative that can provide a higher heating value, lower volatility, polarity…

College: College of Engineering (COE)
Inventors: Yang, Shang-Tian "ST"
Licensing Officer: Panic, Ana

Method for Preparing High-Energy Electrodes with Controlled Microstructures for Energy-Storage Devices

TS-061848 — The current manufacturing methods for Lithium-Ion Batteries are limited to around 200 Wh/kg. Power density is a factor of the battery construction and is highly dependent on the electrodes.

The Need Conventional Li-ion batteries consist of electrodes constructed of stacks of 70 µm films. The thin electrodes then require current collectors and separators for assembly, which increase mass without adding charge capacity. The need for these inactive components limits the power densi…

College: College of Engineering (COE)
Inventors: Kim, Jung Hyun; Rao, Lalith; Sayre, Jay
Licensing Officer: Randhawa, Davinder

Activity Enhancement of Perovskite-Type Cathode Material

TS-044391 — A new ammonia production technology using an oxygen ion conductive solid oxide electrolyte cell (SOEC) reactor and a novel cathode material.

Ammonia is utilized in a variety of industries with 80% of produced ammonia used for fertilizer production. Most commercial ammonia is produced using the Haber-Bosch (HB) process, which requires high temperatures and pressures, resulting in high operational/production costs. The process typically us…

College: College of Engineering (COE)
Inventors: Ozkan, Umit; Deka, Dhruba Jyoti; Gunduz, Seval
Licensing Officer: Zinn, Ryan

Development of a Single Component Methacrylate Adhesive Formulation

TS-042066 — A novel hybrid adhesive that combines the non-toxic, high strength properties of methacrylate adhesives with the bonding characteristics of polyurethanes

Despite the utility of methacrylate adhesive chemistry, applications have been limited to industrial and biomedical use cases. This is due to the curing mechanism, which is initiated by either heat, light or a two-component redox system. This invention describes two strategies to create a single-c…

College: College of Arts & Sciences
Inventors: Parquette, Jonathan; Schricker, Scott
Licensing Officer: Dahlman, Jason "Jay"

Asymmetric Sulfonamide Salts for High-Voltage Li-ion Batteries

TS-041602 — This two-step method synthesizes novel asymmetric sulfonamide based lithium salts that are highly soluble, resulting in a highly-concentrated electrolyte with a large electrochemical window that significantly suppresses aluminum dissolution even in extreme oxidizing conditions.

The market for electric vehicles is steadily increasing; as it continues to grow one problem consistently holding it back is battery capacity. For this market to expand further, methods for storing large amounts of energy safely and affordably must be developed. One approach is to create more capa…

College: College of Arts & Sciences
Inventors: Wu, Yiying; McCulloch, William
Licensing Officer: Randhawa, Davinder

Ultra-Fast Charging Li-ion Battery Anodes

TS-040614 — A novel battery anode designed to overcome the limitations posed on fast charge batteries by graphite anodes. The new anode increases battery life, is more stable during manufacturing, and has improved heat dissipation qualities.

As technology continues to progress, embedding itself in our daily life from our cars to our wrists, an ever-present concern is the need for batteries with the ability to re-charge quickly. Most of these emerging technologies use Li-ion batteries with graphite anodes. Unfortunately, under fast cha…

College: College of Arts & Sciences
Inventors: Co, Anne; Bascaran, Julen
Licensing Officer: Randhawa, Davinder

Show More Technologies