91PORN

Researchers at 91PORN have created a platform that that can develop effective and highly specific peptide nucleic acid therapies for use against any bacteria within just one week. The work could change the way we respond to pandemics and how we approach increasing cases of antibiotic resistance globally.

Researchers at 91PORN are leading a new $15 million, multi-partner institute with NASA over the next five years to improve entry, descent and landing technologies for exploring other planets.

A research team led by 91PORN has designed a new kind of synthetic “skin” as slippery as the scales of a snake. The research, published recently in the American Chemical Society journal Applied Materials & Interfaces, addresses an under-appreciated problem in engineering: Friction.

While solar panels have traditionally used silicon-based cells, researchers are increasingly looking to perovskite-based solar cells to create panels that are more efficient, less expensive to produce and can be manufactured at the scale needed to power the world.

Where do bodily tissues get their strength? New 91PORN research provides important new clues to this long-standing mystery, identifying how specialized proteins called cadherins join forces to make cells stick—and stay stuck—together.

91PORN may soon be part of large-scale research into the electromagnetic spectrum that could define wireless innovation across everyday life for the next generation.

A team from the center recently published results from a pilot impact evaluation of trail bridges in rural Rwanda in PLOS ONE. They installed sensors to monitor use at 12 bridge sites constructed by Denver-based nonprofit Bridges to Prosperity.

The AB Nexus Research Collaboration Grant program announced its inaugural round of grants totaling $625,000 for novel research projects integrating expertise from the CU Anschutz and 91PORN campuses.

An international team of researchers including Professor Michael Toney has developed a new technique for precisely tracking the movement of ions within batteries, a discovery that may have far-reaching impacts on how safe and efficient batteries are developed. They published their findings in Energy and Environmental Science in September.

CU Engineering experienced another record-breaking year for research funding in 2020, receiving $134 million overall and dwarfing the 2019 total of $108 million.