"Takane Imaoka,Yuki Kawana,Takuto Kurokawa,Kimihisa Yamamoto","Macromolecular semi-rigid nanocavities for cooperative recognition of specific large molecular shapes.",,"Nature Communications","Nature Publishing Group","Vol. 4",,"pp. 2581",2013,Oct.
"Masaki Takahashi,Takane Imaoka,Yushi Hongo,Kimihisa Yamamoto","A highly-active and poison-tolerant Pt12 sub-nanocluster catalyst for the reductive amination of aldehydes with amines",,"Dalton Trans","The Royal Society of Chemistry","Vol. 42","No. 45","pp. 15919-15921",2013,Aug.
"Isao Hirano,Takane Imaoka,Kimihisa Yamamoto","Deposition of gallium oxide nanodots prepared from metal-assembling dendrimer molecules isolated by the spacing of the nonmetal-assembling dendrimer molecules in the two-dendrimers mixture monolayer",,"Polym. Adv. Technol.",,"Vol. 24","No. 10","pp. 903-908",2013,Aug.
"Takane Imaoka,Hirokazu Kitazawa,Wang-Jae Chun,Saori Omura,Ken Yamashita,Kimihisa Yamamoto","Magic Number Pt13 and Misshapen Pt12 Clusters: Which One is the Better Catalyst?",,"Journal of the American Chemical Society",,"Vol. 135","No. 35","pp. 13089?13095",2013,July
"Masaki Takahashi,Takane Imaoka,Yushi Hongo,Kimihisa Yamamoto","Formation of a Pt 12 Cluster by Single-Atom Control That Leads to Enhanced Reactivity: Hydrogenation of Unreactive Olefins",,"Angew. Chem.","John Wiley & Sons","Vol. 125","No. 29","pp. 7567-7569",2013,May
"Isao Hirano,Takane Imaoka,Kimihisa Yamamoto","Preparation of Carbon Nanotubes Using Iron Oxide(III) Nanoparticles Size-Controlled by Phenylazomethine Dendrimers",,"Journal of Inorganic and Organometallic Polymers and Materials",,"Vol. 23","No. 1","pp. 223-226",2013,Apr.
"Takane Imaoka,Naoki Inoue,Kimihisa Yamamoto","Extended Potential-Gradient Architecture of a Phenylazomethine Dendrimer",,"Org Lett",,"Vol. 15","No. 8","pp. 1810-1813",2013,Apr.
"Kimihisa Yamamoto","Biography of Professor Hiroshi Nishihara",,"Journal of Inorganic and Organometallic Polymers and Materials",,"Vol. 23","No. 1","pp. 1-3",2013,
"Satoh, N.,Nakashima, T.,Kimihisa Yamamoto","Metastability of anatase: Size dependent and irreversible anatase-rutile phase transition in atomic-level precise titania",,"Scientific Reports",,"Vol. 3",,,2013,