TS-074793 — Sustainable production of advanced biofuels and biochemicals remains constrained by low yields, poor carbon efficiency, and limited scalability of current microbial platforms. In particular, biobutanol has struggled to achieve cost competitiveness due to inefficient carbon utilization and metabol…

TS-074623 — The construction industry faces growing pressure to reduce the carbon footprint of cement while maintaining performance, durability, and reliable supply chains. Traditional supplementary cementitious materials (SCMs) such as fly ash and blast furnace slag are increasingly scarce or regionally cons…

TS-074441 — Chemical looping gasification and combustion are promising pathways for low‑carbon energy conversion, CO₂ capture, and syngas production, but their commercial deployment is constrained by the performance of available oxygen carrier materials. Existing metal oxide oxygen carriers often suffer f…

TS-074295 — Many applications require compact, long‑lived power sources that can operate reliably for years without maintenance, battery replacement, or recharging. This is particularly true for remote sensors, implantable medical devices, space systems, and defense or industrial monitoring deployed in hars…

TS-074219 — This early‑stage electrochemical platform enables integrated CO₂ capture and permanent mineralization while supporting lower‑energy hydrogen production, offering a research‑driven pathway toward energy system decarbonization.

TS-074049 — Commercial and industrial HVAC systems face growing pressure to reduce energy consumption while delivering precise humidity control, particularly in hot and humid climates. Conventional desiccant and vapor‑compression systems require high regeneration temperatures, waste low‑grade heat, and st…

TS-073930 — Many industrial gas–solid reactions, such as ironmaking, chemical looping, and other redox-based processes, are fundamentally constrained by thermodynamic equilibrium in conventional reactor designs. Single-inlet/single-outlet reactors force tradeoffs between gas conversion and solid conversion,…

TS-073880 — Industrial CO₂ electroreduction remains limited by high energy input, poor selectivity, and low formation rates of valuable multi‑carbon products. Conventional copper catalysts often favor hydrogen evolution or low‑value C₁ products such as methane, while catalysts that improve selectivity…

TS-073646 — Industrial chemical and physical processes consume large quantities of thermal energy and steam, yet most facilities still rely on external power generation or low‑efficiency Rankine‑cycle systems to meet their electricity demand. This leads to significant energy losses, high operating costs, …

TS-073219 — Global demand for low‑carbon hydrogen is rising, yet current methods carry efficiency penalties, complex gas clean‑up, and cost and footprint burdens. These drawbacks are amplified when upgrading dilute or variable‑quality feedstocks such as biogas and waste‑derived fuels. Industry needs a…

TS-073184 — Direct air capture (DAC) technologies are essential for meeting global carbon‑reduction goals, yet most current systems remain limited by high energy demand, high cost, and materials with insufficient stability. Traditional solid‑sorbent DAC approaches require significant thermal input for reg…

TS-073138 — Designing online monitoring (OLM) for safety‑critical systems is constrained by scarce early‑stage operational data and by quantitative models that are slow to build, brittle across configurations, and costly to iterate. This creates expensive sensor networks with blind spots, poor diagnosabil…

TS-072927 — Current concrete structures, such as bridges, pavements, and buildings, lack integrated solutions for efficient temperature control. Existing heating or cooling systems are typically installed on or near the surface, risking damage and failing to provide uniform thermal management. There is a need…

TS-071809 — The Need Syngas is an essential intermediate for producing high-value chemicals such as gasoline, methanol, and dimethyl ether. Current industrial methods (steam reforming, autothermal reforming, and partial oxidation) are energy-intensive, costly, and environmentally burdensome. Moreover, these met…

TS-071808 — The Need Industrial syngas and hydrogen production processes are highly energy-intensive and contribute significantly to carbon emissions due to reliance on fossil fuel combustion. Existing methods require multiple unit operations, resulting in low efficiency and high operational costs. There is a c…

TS-071806 — The Need Current syngas production from methane relies on energy-intensive air separation units (ASUs) to supply molecular oxygen, driving up capital and operating costs. Conventional catalysts also suffer from carbon deposition at low oxidant concentrations, limiting process flexibility and efficie…

TS-070971 — The Need Modern gas turbines and compressors rely on bladed disks, which are highly sensitive to mistuning caused by manufacturing tolerances, wear, or damage. Existing modeling tools are fragmented, complex, and often limited to specific mistuning types. Industry will greatly benefit from a unified…

TS-070970 — Many vibration-based energy harvesting systems are limited by narrow operational frequency bands, making them inefficient for environments where excitation frequencies drift, such as in bridges, machinery, or vehicles. Current solutions often sacrifice energy density to broaden bandwidth. A more e…

TS-070633 — The Need Stranded natural gas (SNG), a by-product of crude oil extraction, is often flared due to the high cost and logistical challenges of pipeline transport. Approximately 15 tons/day of SNG is flared from one oil well. This results in significant greenhouse gas emissions and wasted energy. With …

TS-070297 — Transforming industrial waste gases into valuable biofuels and chemicals.

TS-069524 — The Need Global water scarcity is a critical issue, with many regions lacking access to clean and reliable water sources. Traditional water harvesting methods are often energy-intensive and inefficient. There is a pressing need for innovative, sustainable, and energy-efficient technologies to extra…

TS-065424 — Due to environmental concerns and the decreasing supply of fossil fuels, there is substantial demand for nuclear-based energy production. Nuclear energy now provides about 10% of the world's electricity from about 440 power reactors and is the second largest source of low-carbon power. In addition, over 50 smaller countries utilize nuclear energy in about 220 research-size reactors. These reactors are used to produce medical and industrial isotopes and several other purposes.

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.

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…

TS-063346 — A reliable compact device for efficiently compressing natural gas fuel for automobiles

TS-063007 — The Need In disaster-stricken areas, timely and accurate reconnaissance is paramount for effective response and recovery efforts. Traditional methods of assessing damage to critical infrastructure, such as power distribution poles, often involve time-consuming manual inspections, leading to delays …

TS-062601 — Only a small fraction of the radio frequency (RF) energy transmitted by smartphones and other wireless devices is used to communicate with a wireless access point. It would be useful to collect or harvest the unused RF signals in order to convert them to direct current (DC) power and supplement th…

TS-062596 — Conventional rectifying circuit designs convert alternating-current (AC) signals into direct-current (DC) signals via the used of diodes. Low-barrier Schottky diodes are used in low AC power cases such as with ambient radio frequency (RF) signals. Ideally, each diode is only turned on during the p…

TS-062483 — Measurement/detection of analytes (e.g., biomarkers) in different environments (e.g., biofluids/organs) is typically performed using a biosensor. Available bio-integrated sensors do not provide the capability to map biomarker concentrations, require a power source to function, use a limited number of electrodes, and normally can only measure a specific type of biofluid but not others. The use of glutamate mapping technology (radioactive or fluorescent ligand bound to a glutamate receptor) has been evaluated and found to require bulky/expensive medical equipment, a power source for measurement, cannot be miniaturized or integrated into a bio tissue, and require patients to be stationary during measurement.

TS-061876 — 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.