TS-074143 — Across desalination, water reuse, and other separation markets, operators continue to face a fundamental tradeoff between membrane permeability and selectivity. Existing commercial polyamide membranes often sacrifice water flux to achieve high salt rejection, driving higher energy consumption, inc…

TS-073942 — Conventional electrochromic devices rely on ion intercalation, electrolyte layers, and complex multilayer stacks, which increase cost, limit durability, slow switching, and raise environmental and safety concerns (particularly due to lithium-containing components). These constraints hinder broader…

TS-073740 — Magnesium is the lightest structural metal and offers compelling weight‑reduction potential for transportation and other markets. However, broader adoption has been limited by the poor room‑temperature formability, modest strength, and narrow processing windows of conventional magnesium extrus…

TS-073620 — Hydrogen sulfide (H₂S) is a highly toxic and corrosive impurity in syngas, natural gas, biogas, and sulfur plant tail gas. Its removal is essential for safety, regulatory compliance, and downstream processing such as carbon capture and sulfur recovery. However, H₂S is typically present with la…

TS-073587 — Magnetic nanoparticles are widely used in applications such as magnetic hyperthermia, catalysis, sensing, and data storage, yet their performance is often limited by poor control over key magnetic properties. Existing materials typically rely on size or shape control alone, which provides limited …

TS-073586 — The transition to low-carbon energy and chemicals requires efficient separation of CO₂ from hydrogen-rich gas streams, particularly in high-pressure syngas environments such as coal or natural gas gasification. Existing separation technologies (e.g., solvent absorption or conventional membranes)…

TS-073557 — Advanced polymer-derived ceramics (PDCs) and nanocomposites promise exceptional thermal, electrical, and mechanical performance, but commercial adoption is limited by poor nanoparticle dispersion and process complexity. Conventional nanoparticle syntheses rely on small-molecule ligands that are in…

TS-073289 — Understanding how cells respond to soluble signals under diffusion-limited conditions remains a significant gap in current in vitro models. Most microfluidic systems rely on convective flow, which does not accurately reflect transport in interstitial tissue or solid tumors, where diffusion dominat…

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-073051 — Surgeons routinely hand‑bend standard titanium or stainless‑steel fixation plates to conform to patient anatomy, a manual process that is time‑consuming, inconsistent, and prone to gaps, reversed bends, and unfavorable residual stress. Each of these factors can compromise fixation and outcom…

TS-072945 — Many mechanically mediated conditions such as vascular hypertension, glaucoma, and abdominal distension, present intermittent, unpredictable episodes that demand drug release only when symptoms emerge. Conventional platforms often leak at baseline, require external triggers, or cannot synchronize …

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-072841 — Modern thermal management demands fast, accurate, and spatially compact heat flux sensing to complement temperature measurements, enable real‑time control, and estimate internal temperatures without waiting for equilibrium. Conventional longitudinal thermopower sensors trade sensitivity for resp…

TS-072615 — The Need Efficient carbon dioxide (CO₂) utilization and separation remain critical challenges in energy, chemical, and environmental sectors. Existing processes for CO₂ conversion to carbon monoxide (CO) and for separating CO₂/CO mixtures are energy-intensive, costly, and often lack selectivit…

TS-072578 — The Need Current lightweight conductors, such as copper and aluminum, face limitations in specific electrical conductivity, flexibility, and thermal management, especially for demanding applications in electrified transportation and aerospace. There is a critical need for conductors that combine hig…

TS-072576 — The Need Drinking water utilities face mounting challenges in managing alum sludge, a byproduct of water treatment, as landfill options dwindle and disposal costs rise. Simultaneously, utilities must address increasingly stringent regulations for organic contaminants such as disinfection byproducts …

TS-071961 — The Need Despite near-perfect external quantum efficiency in blue InGaN LEDs, devices emitting green, amber, and longer visible wavelengths remain inefficient. This is due to internal electric fields and charge separation in conventional quantum wells, which worsen with higher indium content and wid…

TS-071805 — The Need Hydrogen production from coal-derived syngas is a promising route for cleaner energy, but current CO₂/H₂ separation technologies struggle with efficiency, selectivity, and stability at high pressures. Existing membranes often suffer from reduced CO₂ permeance and compaction under indu…

TS-071787 — The Need Current bone fixation devices are typically made from stainless steel or titanium, which are significantly stiffer than bone and often require surgical removal. Magnesium alloys offer a promising alternative due to their bone-like mechanical properties and bioresorbability. However, commerc…

TS-071748 — Pipeline and recirculating water systems lose significant energy to turbulent friction. Today’s polymer DRAs are effective in hydrocarbons but irreversibly shear‑degrade, need continual re‑injection, and cannot be “turned off” in heat exchangers. Earlier aqueous surfactant DRAs reduced p…

TS-071746 — The Need Oil spills continue to pose significant threats to aquatic environments, public health, and economies worldwide. Existing sorbent technologies struggle to efficiently capture thin oil sheens and often lack buoyancy, limiting their effectiveness in real-world conditions. There is a critica…

TS-071745 — The Need Current two-way shape memory polymers (SMPs) require expensive, crystalline or liquid crystalline monomers and complex synthesis, limiting their use in cost-sensitive and biocompatible applications. Widely used amorphous polymers (e.g., polystyrene, PMMA) are inexpensive and common in con…

TS-071744 — The Need Current inkjet printing technologies are limited by the need for inks with specific viscosity and ejection properties, which restricts the range of printable materials and compromises print resolution due to droplet splashing. There is a significant need for a printing method that enables…

TS-071386 — The Need The search for sustainable, high-performance battery materials is hindered by reliance on finite metal-based resources and slow, trial-and-error development cycles. Organic electrode materials (OEMs), composed of earth-abundant elements, offer a more sustainable path but present challenges …

TS-071267 — The Need Modeling solvent effects on catalytic surfaces is critical for designing industrial processes like biomass conversion, fuel synthesis, and electrocatalysis. Traditional multiscale simulations combining density functional theory (DFT) and molecular dynamics (MD) offer accuracy but are comp…

TS-071088 — The Need The transportation industry increasingly relies on aluminum-silicon (Al-Si) casting alloys to reduce vehicle weight and emissions. However, structural applications demand high ductility and strict impurity limits, making them incompatible with most recycled aluminum. Current secondary alloy…

TS-070531 — The Need Efficient heat switches are crucial for various applications, including solid-state refrigeration, solar thermal installations, waste heat scavenging, and electronics cooling. Current technologies often suffer from irreversible thermodynamic losses or inefficiencies, limiting their effectiv…

TS-070520 — The Need Accurate, real-time mapping of shear forces in fluid environments remains a challenge, particularly in applications requiring passive, non-invasive, and long-term monitoring. Existing technologies often rely on active sensors that require power, are difficult to integrate into sensitive sys…

TS-070308 — The Need Current lithium iron phosphate (LFP) cathode materials suffer from poor electronic conductivity and limited lithium-ion diffusion, especially under high-rate charging conditions. These limitations hinder the performance of lithium-ion batteries (LiBs) in demanding applications such as elect…

TS-070307 — The Need The rapid growth of electric vehicles and portable electronics demands lithium-ion batteries (LIBs) that support fast charging without compromising cycle life or safety. Silicon anodes offer high theoretical capacity but suffer from severe volume expansion during cycling, leading to mechani…

TS-070030 — The Need Current photocatalytic technologies often require UV light for activation, limiting their efficiency and applicability under natural sunlight. Additionally, the short lifespan of photogenerated electrons and holes in TiO₂ nanoparticles hinders effective utilization. There is a need for a…

TS-069805 — The Need Welding or bonding steel to aluminum is challenging due to the formation of brittle Fe-Al intermetallic compounds, which weaken the joints. Current methods require alternative, costly joining processes. There is a critical need for a solution that allows the use of traditional welding tech…

TS-069780 — The Need Efficient thermal management is crucial in various industries, yet current solutions often fall short in terms of performance and adaptability. There is a significant need for a technology that can effectively control heat flow in bulk materials, enhancing the efficiency of systems ranging…

TS-069650 — The Need The urgent need to mitigate climate change has driven the demand for efficient carbon capture technologies. Current methods often fall short in achieving high capture rates and purity levels, especially for industrial applications. This technology addresses the critical need for a scalable…

TS-069522 — The Need The biofuel and biochemical industries face challenges in efficiently converting fermentation byproducts, such as butyrate, into higher-value products like butanol. Traditional methods often result in the accumulation of waste products, limiting overall process efficiency and economic viab…

TS-068795 — The Need Renewable energy 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, cor…

TS-067793 — The technology is a device and method for producing high purity tritium gas by irradiating a lithium composition within a gas cell that selectively allows tritium to diffuse while blocking other byproducts, ensuring efficient and direct collection of pure tritium without extensive purification. This system is designed to enhance the purity, efficiency, and scalability of tritium production for various industrial and research applications.

TS-067792 — A software tool for optimizing the manufacturing process for metal alloys.

TS-067045 — The Need Wireless implants with integrated antennas are highly desirable for diagnostic, therapeutic, and monitoring applications due to their ability to communicate directly with external devices. However, the need for major surgical incisions to implant these devices poses significant risks, incl…

TS-066100 — Research tool to transfect cells ex vivo using electroporation through electrospun core-shell fibers for research applications