Spent grains from the beer making process are commonly used as animal feedstock. Researchers led by Queen’s University Belfast in Northern Ireland offer a new, potentially more profitable recycling option—turn spent grains into high-value carbon materials.
Read More
By incorporating electrospun nanofibers, The North Face’s new Futurelight gear is designed to be more breathable and lightweight than any other performance material currently on the market.
Read More
A team of researchers developed a super slippery spray-on toilet bowl coating that prevents waste from sticking to the toilet bowl’s surfaces, allowing toilets to use less water to flush clean.
Read More
It is challenging to effectively monitor seismic quakes deep in the ocean. Lawrence Berkeley National Laboratory researchers and colleagues, who previously used optical fibers to monitor earthquakes on land, tested using optical fibers to monitor earthquakes undersea.
Read More
In anticipation of hosting the FIFA World Cup in 2022, Qatar is actively implementing cooling technologies to combat the intense heat. One technology being tested to cool roads is a blue heat-reflective pigment containing hollow ceramic microspheres.
Read More
In today’s world of global commerce, product identity is a significant issue with considerable economic repercussions. TruTag Technologies is developing porous silica nanoparticles that use unique spectral signatures to authenticate goods.
Read More
Enamel is the hardest tissue in the body—but it cannot self-repair when damaged. Due to its complex structure, creating enamel in the laboratory is difficult, but a new technique proposed by researchers in China may make growing enamel a reality.
Read More
On October 9, the Royal Swedish Academy of Sciences awarded the 2019 Nobel Prize in Chemistry to three scientists for their work to develop lithium-ion batteries. John Goodenough, a luminary in the field of solid-state physics, is one of this year’s winners—learn more about his history and current research.
Read More
Welding ceramics traditionally requires high temperatures and long-term exposure. Researchers from the University of California, San Diego, and the University of California, Riverside, discovered ceramics can be welded at room temperature using ultrafast pulsed lasers.
Read More
An international team of scientists developed a unique 3D printing process to fabricate bioceramic structures—reminiscent of hot dogs—that frankly could be a fantastic solution to repair large bone defects.
Read More