PARP Figure

Novel Inhibitors of PARP1/2: A Promising Treatment Approach for BRCA-Negative Cancers, Vascular Disease, and Neurodegeneration

Nov. 25, 2020

Novel PARP1/2 inhibitor compounds that interact with the HPF1 part of the PARP active site to form more stable and effective inhibitors can be used for treating cancer, neurotoxicity and vascular disease.

anseth group figure

Synthesis and Assembly of Clickable Microgels into Cell-Laden Porous Scaffolds

Nov. 25, 2020

The facile nature of assembly allows for primary cells, stem cells, or cell lines to be incorporated throughout the porous scaffold. Each microgel can be loaded with proteins or small molecules for localized delivery at defined concentrations.

thiol-thioester exchange graphic

Remoldable, Recyclable, and Repairable Thiol-Thioester Polymer Networks

Oct. 22, 2020

Distinguished Chemical and Biological Engineering Professor Christopher Bowman’s research group has designed a novel thiol-thioester covalent adaptable networks (CANs), which can be seamlessly incorporated into mature polymerization procedures.


Method for Fabricating Corrugated Gate Dielectric-Semiconductor Interface Transistor

Sept. 24, 2020

Today’s trend in semiconductor chip manufacturing involves the miniaturization of transistors and increasing the density of transistors per integrated circuit. Researchers at CU Boulder have developed a corrugated gate dielectric-semiconductor interface that can be easily incorporated into the existing semiconductor manufacturing technology to improve the transistor device performance.

concrete being poured

Additive for Cryopreservation of Solid Media

Sept. 24, 2020

Concrete exposed to cyclic freezing and thawing temperatures is susceptible to damage. Researchers at CU Boulder found that PEG-PVA provided freeze-thaw resistance comparable to air-entrained concrete with a hardened state air content less than 3%. The low air content suggests that the freeze-thaw resistance could be attributed to something other than an entrained air system.

Growth of Fungal Electrochemical Materials

Growth of Fungal Electrochemical Materials

Aug. 17, 2020

Researchers at CU Boulder have turned to nature to create a novel battery material with unique structure and electronic properties. By utilizing the natural structure and growth mechanism of certain fungi, these materials can be ‘tuned’ to provide certain properties desirable in batteries, for example, as well as catalytic applications.

wind turbines

End of Life Alternative Uses for Composite Wind Turbine Blades

Aug. 17, 2020

CU Denver Associate Professor Dr. Ronald A. L. Rorrer has developed a way to upcycle retired wind turbine blades into new building materials for civil engineering projects such as snow breaks, landscaping, earthen dams and bridges.

mmW Frequency Synthesizer using Integrated Photonics Frequency Combs

mmW Frequency Synthesizer using Integrated Photonics Frequency Combs

Aug. 17, 2020

This technology is a photonics frequency synthesizer, which can generate signals between 50 GHz and 1 THz on one device in a smaller size and higher power efficiency than electronic frequency synthesizers.

hydrogel figure

Swellable Photopolymerized Hydrogels for Expansion Microscopy

July 28, 2020

Researchers at CU Boulder have developed novel hydrogels for nanoscale optical imaging of biological samples. This invention provides photopolymerizable hydrogel platforms to expand biological samples between 6-20X depending on the chemistry used.

prosthetic hand diagram

Self-Healing and Self-Sensing High-Performance Artificial Muscle

July 27, 2020

CU Boulder researchers have designed a Liquid Crystal Elastomers (LCEs) network that exhibit the most similar actuation behavior to natural muscle, due to their dramatic contraction, reversible deformation, response to multiple stimuli, and great potential for micro-scale robotics.