Published: December 2007 Giant fullerenes, high-yield graphene production, bioactive nanostructures, better electron microscopes, and more Nature Nanotechnology 2, 738–739 (2007) Cite this article ...

Fullerene switch: artist’s rendering of a fullerene switch with incoming electron and red laser light pulses. (Courtesy: ©2023 Yanagisawa et al.) Light-induced electron emissions from fullerene, a ...

Fig. 2 (a) Electron microscope images of the C60 fullerene molecules. The molecules were irradiated with an electron beam and fused together by a dimerization. The electron dose increased from left to ...

Buckyball sandwiches combine fullerenes and graphene. This structure allows to study the dynamics of the trapped molecules down to atomic resolution using scanning transmission electron microscopy.

In principle, as multiple ultrafast electron switches can be combined into a single molecule, it would only take a small network of fullerene switches to perform computational tasks potentially ...

Fullerene switches in a network could produce a computer beyond what is possible with electronic transistors, and they could also lead to unprecedented levels of resolution in microscopic imaging ...

Electron microscopy has emerged as an indispensable tool for the investigation of carbon nanostructures and their molecular reactions. Recent advancements in high-resolution transmission electron ...

Fullerene C60 is a nanoparticle being actively investigated for possible applications in biology and medicine since, owing to its lipophilicity, it should be able to be incorporated in or to permeate ...