Hydrogenation of Graphane: Searching for Unstable Products

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The discussion centers on the study of GraphAne and the search for a functional group that, upon breaking from carbon (C), can attach to environmental hydrogen (H) in a way that leads to the formation of a higher energy, unstable product through hydrogenation. The inquiry emphasizes the need for a functional group that results in an unstable end product, contrasting with typical stable outcomes. Participants highlight the importance of the history and preparation of graphene specimens, as these factors significantly influence edge chemistry. Suggestions include exploring various unsaturated hydrocarbons for attachment to avoid free radicals and considering theoretical configurations like reentrant structures or stabilized radicals. The conversation reflects a theoretical exploration of graphene and graphane structures to address stability issues.
masyousaf1
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Dear Members,

We are studying GraphAne. I need to know a functional group on graphEne which on breaking from "C attaches with "H" of environmental hydrogen and the other "H" attaches with the "C" i.e; Hydoregenation of graphane. The new product must be higher in energy (unstable product). I know many examples but the end product is always stable in w.r.t Reactants.
Expecting a warm response.
Best Regards
 
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Do you have any sort of history/preparation of your graphene specimen(s)? That's going to be a major determinant of the "edge" chemistry.
 
Bystander said:
Do you have any sort of history/preparation of your graphene specimen(s)? That's going to be a major determinant of the "edge" chemistry.
thanks for following this. We are studying graphene and graphane related structures theoretically. We need such a functional group to explain a stability issue.
 
Ah, "theoretical" graphene. At which point you can hang vinyl, acetylene, allene, or any other simple unsaturated hydrocarbon on the edges if you're trying to avoid free radicals on boundary carbon. You might also look at "reentrant" configurations or "embayments" and possibilities for "stabilized" radicals similar to the triphenylmethyl radical in equilibrium with hexaphenyl ethane, or radical cation/anion pair possibilities (tropylium, and can't come up with anion possibilities at the moment).
 
Thank You Bystander for the help. Wishing you a happy new year
 

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