UW researchers have designed and synthesized a series of cathode materials for aqueous redox flow batteries by dimerization of TEMPO into ionic structures. TEMPO radicals have high voltage but are too...
Learn More

UW-Madison researchers have developed a novel manufacturing technique to enhance the compliance of expanded polytetrafluoroethylene (ePTFE) for vascular graft applications. This new method involves mo...
Learn More

Composite materials are used in the aerospace, automotive, marine and defense industries because of their enhanced specific mechanical properties and functionality. One category of composite materials...
Learn More

UW-Madison researchers have developed a nacre-mimetic ferroelectric metamaterial with exceptional piezoelectricity and fracture toughness. Ferroelectric (e.g. poly(vinylidene fluoride)-co-hexafluoropr...
Learn More

UW-Madison researchers have developed a novel approach to effectively wet, incorporate and disperse ceramic nanoparticles into molten metal. The technique is based on rapidly heating the melt to induc...
Learn More

UW researchers have developed a sustainable viologen redox species synthesized from a common industrial organic species, 3-chloro-2-hydroxypropyl trimethylammonium chloride. Also known as Dextrosil, t...
Learn More

UW-Madison researchers have developed an improved electrochemical valorization strategy that leverages an electrocatalyst capable of carrying out two-electron oxygen reduction reactions (2e- ORR). The...
Learn More

UW-Madison researchers have developed a method to synthesize organocatalysts that can be engineered to mimic biological enzymes for use in a variety of industrially relevant chemical reactions. The or...
Learn More

UW-Madison researchers have developed a novel profluorophore that binds to lithium ions with high specificity, inducing a fluorescent signal. The fluorescent indicator can be seamlessly integrated int...
Learn More

Zinc oxide graphene composite materials have significant interest commercially as they have been demonstrated effective for use in sensors and capacitors. They can act as transparent conductive thin-f...
Learn More

UW-Madison researchers have developed a class of extremely robust yet inexpensive ion exchange membranes based on glassy organic frameworks. These membranes have shown promising performance for redox ...
Learn More

UW-Madison researchers have designed and fabricated architected vertically aligned carbon nanotube (VACNT) foams with synergistic improvements in specific elastic modulus, specific energy absorption, ...
Learn More

UW-Madison researchers from the department of chemistry have developed a synthetic route for producing tertiary β-hydroxy-α-amino acids. Their approach utilizes a pyridoxal-phosphate (PLP)-...
Learn More

UW-Madison researchers have developed an alloy of chromium, molybdenum and aluminum that has shown survivability up to 1600 degrees C, as well as over exposure times of 120 hours through multiple ther...
Learn More

UW-Madison researchers have developed an amino acid-based piezoelectric biocrystal thin film that offers tissue-compatible omnidirectional stretchability with unimpaired piezoelectricity. The stretcha...
Learn More

The need for corrosion-resistant materials is present throughout automotive, aerospace, and electronics manufacturing as well as many other metal and polymer manufacturing industries. Electrodepositio...
Learn More

UW-Madison researchers developed SLIPS fabricated from building blocks that are biodegradable, edible, or generally regarded as safe (GRAS). These materials are based on nanofiber-based mats/meshes ge...
Learn More

UW-Madison researchers have developed a new additive manufacturing (AM) method for generating multi-color objects. The researchers identified a photochemically-controlled metal redox system capable of...
Learn More

Catalysts play countless roles in modern society including production of fertilizer, synthesis of plastics and other ubiquitous materials and development of pharmaceuticals. However, many catalysts re...
Learn More

UW-Madison researchers have developed a triblock copolymer strategy for controlling the spacing between CNTs. The triblock copolymers consist of an A-B-A architecture where the B block is the conjugat...
Learn More

UW-Madison researchers have developed a new electrochemical method for synthesizing epoxides from hydroxy-alkanes. The method is implemented in a reactor comprising an anode and a cathode separated by...
Learn More

UW-Madison researchers have developed a process to recover the components of printed multilayer plastic films. As an example, a film composed of polyethylene (PE), ethylene vinyl alcohol (EVOH), and p...
Learn More

Recent global estimates project that over 125 million tons of dairy products are wasted or discarded due to spoilage each year. Roughly half of this waste occurs before the products even reach the con...
Learn More

UW-Madison researchers have developed a solution-phase metalation method for increasing M loading on N-C. The N-C supports are synthesized by high-temperature pyrolysis of N, C precursor mixtures (e.g...
Learn More

The inventor discloses a new method and system for reductive electrochemical synthesis that uses H2 as the terminal reductant. Essentially, this invention will enable H2-integrated anodes and flow-rea...
Learn More