Abstract
The hydrogen-peroxide encapsulation into C(60) is evaluated using the DFT (M06-2X) and B2PLYPD as well MP2 calculations in the standard 6-31++G** and 6-311++G** basis sets. The H2O2 encapsulation is attractive, yielding an energy gain of about 12 kcal/mol.
Such substantial encapsulation energy could allow for the high-temperature and high pressure synthesis (originally used for encapsulation of rare gases in fullerenes) of H2O2@C(60) which has otherwise been observed only in a form of encapsulation into an open-cage C(60) derivative. The calculated structural characteristics and IR vibrational spectrum are presented, too.