A newly developed graphene-based implant can record electrical activity in the brain at extremely low frequencies and over large areas, unlocking the wealth of information found below 0.1 Hz.
Jan 24, 2019
The smallest ever 3D-printed fluid circuit element, or microfluidic diode, has been developed by engineers from the University of Maryland (UMD). The diode is so tiny that 10 of it could be placed...
Jan 24, 2019
Numerous metals and alloys would be ideal for specific nanoscale applications — from solar energy to microelectronics — but accurately molding metals into such miniscule... The post New Process Allows Scientists To Mold Metal At The Nanoscale app...
Jan 24, 2019
New nanomaterials developed by researchers at the Advanced Science Research Center (ASRC) at The Graduate Center of The City University of New York (CUNY) could provide a pathway to more efficient and potentially affordable harvesting of solar ene...
Jan 24, 2019
A significant advance in the photocatalytic activity of conventional materials is demonstrated by a two-dimensional heterostructure comprising nanolayers of two semiconductors: black phosphorus and bismuth tungstate. As researchers have reported i...
Jan 24, 2019
A breakthrough in fabricating atom-thin processors could have far-reaching impacts on nanoscale chip production and in labs across the globe where scientists are exploring 2D materials for ever-smaller and -faster semiconductors. Researchers repor...
Jan 24, 2019
A newly developed graphene-based implant can record electrical activity in the brain at extremely low frequencies and over large areas, unlocking the wealth of information found below 0.1 Hz. This technology, which will be showcased in the Graphen...
Jan 24, 2019
A Columbia-led team has discovered a new method to manipulate the electrical conductivity of this game-changing material, the strongest known to man with applications ranging from nano-electronic devices to clean energy.
Jan 24, 2019
NUS Engineers have developed a cost-effective and scalable strategy for designing tiny semiconductor particles known as transition metal dichalcogenide quantum dots (TMD QDs) which can potentially generate cancer-killing properties. The team is al...
Jan 24, 2019
William Oliver says a lack of available quantum scientists and engineers may be an inhibitor of the technology’s growth.
Jan 23, 2019
