This discovery may be fundamental for the understanding and design of new, nanometric size, opto-electronic devices which will be key for the development of new technologies based on quantum properties, such as sensors or quantum computers.
Nanotechnology News from Nanowerk
This discovery may be fundamental for the understanding and design of new, nanometric size, opto-electronic devices which will be key for the development of new technologies based on quantum properties, such as sensors or quantum computers. • Email to a friend • Researchers have demonstrated 3D printed complex objects with higher cellulose content than that of any other additively manufactured cellulose-?based parts. To achieve this, they used a clever trick. • Email to a friend • Researchers have developed a nanodevice that operates more than 10 times faster than today's fastest transistors. • Email to a friend • The 'coffee ring effect' has fascinated scientists for decades, but now a team says they have uncovered the mechanism behind an even more striking, web-like pattern that forms when drops of whiskey dry up. • Email to a friend • Researchers have implemented a new material engineering method to fabricate a laser microdisk in strained Germanium-Tin (GeSn) alloy. They demonstrate for the first time the laser device with a group IV compound, compatible with Silicon, operating with ultra-low threshold and under continuous wave excitation. • Email to a friend • Biofabrication is a revolutionizing toolkit for regenerative medicine that allows cells and other biomaterials to be precisely combined and patterned into three-dimensional (3D) constructs through automated, cell-friendly fabrication methods. With rapid advanced in 3D-printing hardware on one hand and bioink materials on the other, biofabrication techniques have gained significant momentum and provide a powerful approach to tackle major hurdles in the generation of engineered living tissues. While 3D bioprinting is still in its early stages, the remarkable leap it has made in recent years points to the eventual reality of lab-grown, functional organs. • Email to a friend • Scientists have shed light on how excitons - an excited state of matter at the core of optoelectronics - move and interact within phosphorene. • Email to a friend • |
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