March 6th, 2018 | by Faye Oney
Researchers have developed a process that uses silver nanowires to print electronic circuits on flexible surfaces. Their method could be promising for the future of flexible and wearable electronics, especially for the medical industry.
January 24th, 2018 | by April Gocha
Using a fungus called Trichoderma reesei, researchers at Binghamton University in New York are developing a self-healing concrete formulation that incorporates fungal spores that remain dormant until a crack forms.
January 2nd, 2018 | by Faye Oney
Scientists at Rice University have developed a device that uses microfluidics to implant carbon nanotube fibers into brain tissue. Their device could help scientists learn more about cognitive processes and improve therapies for patients with neurological disorders.
December 12th, 2017 | by April Gocha
Researchers at the University of Konstanz in Germany have shown that they can engineer stronger cement by giving the material a nano-level brick and mortar structure. Adding polymer binders into cement to control its nanostructure, the researchers developed a material 40–100 times more fracture resistant than standard concrete.
December 12th, 2017 | by Faye Oney
Scientists have discovered that a brittle starfish has the capability to create a durable "tempered" ceramic material while underwater. Its process is similar to the creation of tempered glass, but without the heating and cooling process.
November 8th, 2017 | by Faye Oney
Researchers have developed a microsensor that monitors the freshness of foods. It could be used to collect data on food temperatures when connected to the internet. Watch the video to learn more about this microsensor.
October 27th, 2017 | by Faye Oney
In a new clinical trial, scientists have shown that nanodiamonds mixed with gutta percha, a dental filling, can prevent bacterial infection after a root canal. The results represent a key milestone for the nanodiamond field and nanomedicine in general.
October 24th, 2017 | by April Gocha
New research shows that sea sponges use an internal protein filament to catalyze silica deposition, ultimately determining the shape of their uniquely structured glass spicules.
October 17th, 2017 | by Faye Oney
Researchers from Penn State University have developed a flexible optical fiber that can deliver light into the body for diagnosing disease or viewing tissue damage. It is also biodegradable, offering a number of applications for the medical industry.
September 20th, 2017 | by April Gocha
Researchers report a simple method to manufacture biocompatible structural colors using only melanin and silica. The silica shell provides a buffer layer of tunable thickness that allows customization of the particular color, offering the potential to fabricate a new breed of long-lasting pigments that don’t fade.