An international team of researchers found they could use 3D printing to create Biosilicate® glass-ceramic scaffolds. This method offers low-cost fabrication of bioactive glass-ceramics for biomedical applications.
Read More
An international team of researchers developed a cost-effective and environmentally friendly method for creating nacre, which could be used in a wide range of applications, from biomedical implants to moon habitats.
Read More
The May 2019 issue of the ACerS Bulletin—featuring articles on how ceramics contribute to the modern field of biomaterials—is now available online.
Read More
Researchers at the University of Central Florida used cerium oxide nanoparticles to create the first-ever rapid detector of dopamine. Such a device could improve point-of-care diagnostics for use in low-resource settings.
Read More
Researchers developed a multifunctional bioactive glass scaffold that can simultaneously prevent infection, stimulate bone repair, and prompt the body to heal supportive tissues—an intriguing possible all-in-one solution to heal diseased bone.
Read More
RMIT University researchers found biosolids-enhanced bricks showed lower thermal conductivity and reduced brick firing energy demands compared to traditional bricks.
Read More
Glass-ceramic dental crowns offer better aesthetics than conventional ceramics, but are not as strong. Researchers in Sweden developed a glass-ceramic that is both aesthetic and strong.
Read More
Researchers have developed a coating that could reduce biofouling on ships by up to 50%. Their coating could double a ship’s deployment at sea and reduce maintenance and fuel costs.
Read More
Researchers have developed a flexible ceramic 3-D printed bone implant. Called ‘Hyperelastic Bone,’ the implant can regenerate bone tissue growth, ultimately becoming part of the patient’s own bone.
Read More
In a new study, researchers have demonstrated a method of regenerating bone using 3-D printed ceramic scaffolds. This technique could possibly replace traditional bone grafts and help those with bone injuries or deformities.
Read More