The discussion revolves around the theoretical thickness of single-layer graphene, exploring both its atomic structure and measurement challenges. Participants inquire about the thickness in Angstroms and the interlayer spacing in graphite, while addressing the complexities involved in defining and measuring thickness in this context.
Participants do not reach a consensus on the exact theoretical thickness of graphene, with multiple competing views and uncertainties regarding definitions and measurement techniques remaining evident throughout the discussion.
Limitations include the ambiguity in defining "thickness," the dependence on measurement techniques like AFM, and the complexities introduced by atomic interactions and bonding types.
kevinisfrom said:a carbon atom is not the same thing as graphene. do you know the thickness of graphene in Angstroms?
kevinisfrom said:Hello,
I was just wondering what the theoretical thickness of single layer graphene is?
Thanks in advance for any feedback.
kevinisfrom said:There are sp2 bonds between C atoms. It's different from an isolated atom.
kevinisfrom said:Hi Greg, thank you for the reply. Your link is an experimental paper. I was hoping for the theoretical value of graphene's thickness, and also the interlayer spacing between graphene sheets in graphite.
NeedBranes said:A single layer of graphene would be one atom thick, carbon.
kevinisfrom said:Thanks for the replys. I know there is a widely accepted theoretical value for the thickness, considering all the atom-atom interactions and whatnot. It's just a number. I understand there is a lot to consider when doing AFM scans, but there should be a simple answer to this question theoretically. I knew it once, but have since forgotten.