Synthetic carbon allotropes like fullerenes, carbon nanotubes, and graphene stand out as highly promising material categories, holding immense potential for advanced applications in the realm of photovoltaics. Concurrently, they offer optimal avenues for delving into fundamental chemical and physical inquiries. These encompass aspects like shape- and charge-responsive molecule binding and release, charge conveyance within restricted volumes, and remarkably perceptive detection of supramolecular interactions.
The 6th Erlangen Symposium on Synthetic Carbon Allotropes serves as a forum where both local and global specialists showcase the latest advancements in this domain.
More information
Synthetic carbon allotropes like fullerenes, carbon nanotubes, and graphene stand out as highly promising material categories, holding immense potential for advanced applications in the realm of photovoltaics. Concurrently, they offer optimal avenues for delving into fundamental chemical and physical inquiries. These encompass aspects like shape- and charge-responsive molecule binding and release, charge conveyance within restricted volumes, and remarkably perceptive detection of supramolecular interactions.
The 6th Erlangen Symposium on Synthetic Carbon Allotropes serves as a forum where both local and global specialists showcase the latest advancements in this domain.
More information