Changing the Hydrophobic MOF Pores through Encapsulating Fullerene C60 and Metallofullerene Sc3C2@C80

We report that the encapsulation of fullerene or metallofullerene can greatly change the hydrophobic property of pores for metal–organic frameworks (MOFs). The adsorption capacities for several aromatic molecules (toluene, benzene, xylene, and chlorobenzene) were raised after incorporating C60 into MOF-177. In addition, paramagnetic metallofullerene Sc3C2@C80 with an electron spin was encapsulated into the pores of two kinds of MOFs (MOF-177 and MOF-180) filling with toluene solvent. It is found that Sc3C2@C80 electron spin can sense the different pore sizes of MOFs as shown by its varied electron paramagnetic resonance signals, which are affected by the different confinement effects in space. The filling toluene solvent within MOFs plays an important role in steering the spin relaxation of Sc3C2@C80@MOFs through lubricating the motion of Sc3C2@C80 balls. These results revealed that metallofullerene Sc3C2@C80 can act as a spin probe to sensitively detect the pore environment of MOFs. Moreover, the fullere...