Results of the joint research by Osaka University, Miguel Hernandez University, Keio University, Texas University and Tohoku University are organized as study paper and published in WEB edition of the professional journal. Please see the following for further information.
◆Y.Kawashima et. al,,
Near-Infrared Photoelectrochemical Conversion via Photoinduced
Charge Separation in Supramolecular Complexes of Anionic
Phthalocyanines with Li⁺@ C₆₀
（Outline ） Structured electric charge separation system of super molecule composed of lithium-ion encapsulating fullerene and phtalocyanine with anion property, and made photo voltaic devices. Life of separation of electric charges is the longest among those observed in the electric charge separation system including lithium-ion encapsulating fullerenes.
◆ Christina.M. Davis et. al, Photoinduced electron transfer in a supramolecular triad produced by porphyrin anion-induced electron transfer from tetrathiafulvalene calixpyrrole to Li⁺@ C₆₀. Chem. Commun., 2015,51, 9789
(Outline） Observed two-stage transfer of electrons, thermal and photonic, inside a super molecule composed of lithium-ion encapsulating fullerene, porphyrin with anion property and anion receptor.
◆Mustafa Sapura et. al, Graphene oxide– Li⁺@ C₆₀ donor–acceptorcomposites for photoenergy conversion. Phys.Chem.Chem.Phys. 2015, 17, 15732
（Outline） Made photo voltaic devices composed of lithium-ion encapsulating fullerene and graphene. Made in-depth study of interaction of lithium-ion encapsulating fullerene and graphene.
◆H. Isobe et. al, Modulation of energy conversion processes in carbonaceous molecular bearings. Chem. Asian J. 10.1002/asia.201500673
（Outline）Created molecular bearings with an axis of lithium-ion encapsulating fullerene. Analyzed photo dynamics inside the molecule.