University of Cincinnati researchers show for the first time that they can connect an increase in electrical (ionic) conductivity with flexibility of their networks. The same team of researchers discovered intermediate p...
The stirrup, a small bone in the human ear, can be accurately replicated using established production processes. By means of injection molding, researchers can now produce such tiny implants from biocompatible materials ...
Invibio®, a leading provider of biomaterial solutions to the medical device market, today presented findings from research investigating wear rates of its PEEK-OPTIMA® polymer and carbon fiber-reinforced (CFR) PE...
Applied Materials, Inc. launched its new Applied Centura® TetraTM III Advanced Reticle Etch, the only system that delivers the vital nanomanufacturing technology required for etching 45nm photomasks. The Tetra III co...
Invibio®, a leading provider of biomaterial solutions to the medical device market, today released data from an in vitro study conducted in conjunction with the University of Connecticut Health Center, Department of ...
VTT Technical Research Centre of Finland, Tampere University of Technology and Nanofoot Finland Oy have developed a direct-write three-dimensional forming method of biomaterials. The methodology enables fabrication of na...
Clarkson University Physics Professor Igor Sokolov and his team have discovered a method of making the brightest ever synthesized fluorescent silica particles.
These nanostructured macroscopic silica particles have p...
More than half a million people in the European Union and a million in the United States suffer from disorders in or serious defects of some part of their bone structure. Operations involving grafts or implants, required...
Invibio®, a leading provider of biomaterial solutions to the medical device market, today announced its PEEK-OPTIMA® polymer will serve as the platform for a new generation of non-metallic and non-ceramic biomate...
Using a modified ink-jet printer, a McGill University researcher is producing three-dimensional bioceramic "bones" that could one day change the way reconstructive surgery is performed.
McGill professor Jake...
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