News from the NNI Community - Research Advances Funded by Agencies Participating in the NNI

Researchers have developed a new screening process could dramatically accelerate the identification of nanoparticles suitable for delivering therapeutic RNA into living cells.

Researchers have developed a new screening process could dramatically accelerate the identification of nanoparticles suitable for delivering therapeutic RNA into living cells.

Researchers have created a computer simulation, validated by experimental results, to help design drug-delivery nanoparticles that carry cancer-fighting medicines directly to tumors, while minimizing the potential side-effects on healthy cells.

Researchers have created a computer simulation, validated by experimental results, to help design drug-delivery nanoparticles that carry cancer-fighting medicines directly to tumors, while minimizing the potential side-effects on healthy cells.

Scientists have used nanoparticles along with FDA-approved medication to effectively and selectively inhibit drug-resistant kidney cancer. 

Scientists have used nanoparticles along with FDA-approved medication to effectively and selectively inhibit drug-resistant kidney cancer. 

Scientists have developed a method for spraying invisibly thin antennas, made from a type of two-dimensional, metallic material called MXene, which perform as well as those being used in mobile devices, wireless routers and portable transducers. 

Scientists have developed a method for spraying invisibly thin antennas, made from a type of two-dimensional, metallic material called MXene, which perform as well as those being used in mobile devices, wireless routers and portable transducers. 

Using an atomically thin material, hexagonal boron nitride, placed on nanopillars, scientists have created an array of quantum emitters operating at room temperature that could be integrated into next generation quantum communication systems.

Using an atomically thin material, hexagonal boron nitride, placed on nanopillars, scientists have created an array of quantum emitters operating at room temperature that could be integrated into next generation quantum communication systems.