Toshio Tanaka
Osaka University
298 Papers
2.4K Citations
Toshio Tanaka is an academic researcher from Osaka University. The author has contributed to research in topics: Tocilizumab & Arthritis. The author has an hindex of 45, co-authored 297 publications.
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Papers
Reduction of n‐C5H11N3 Catalyzed by [Mo2Fe6S8(OMe)3(SC6H4‐p‐n‐C8H17)6]3– in an Aqueous Micellar Solution
TL;DR: In this article, the reduction of n-C5H11N3 by Na2S2O4 was performed in the presence of (n-Bu4N)3 [Mo2Fe6S8(OMe)3(SC6H4-p-n-C8H17)6] ((n-bu4N), [Mo-Fe]) as a catalyst in aqueous Triton X-100 micellar solutions.
A novel type of penta-coordinated iron(iii) complex fecl(ssecnr2)2 (r=ch3, c2h5)
Shunji Nakajima,Toshio Tanaka +1 more
TL;DR: The titled compounds were prepared, and the magnetic susceptibility and electronic spectrum were measured; the two weak bands observed in the near-infrared region are assigned as spin-forbidden d-d bands as discussed by the authors.
Tetracyanoethylene complexes of ni(0) and co(-1) containing isocyanides and nitrosyl
TL;DR: The magnetic equivalence of the isocyanides in Ni(RNC)3(TCNE) and Co(NO)2 (TCNE), is more likely due to the free rotation of TCNE in solution than to the dissociative exchange of ligands as discussed by the authors.
Le Relapsing Polychondritis Damage Index (RPDAM) : développement d’un score lésionnel au cours de la polychondrite atrophiante
Philippe Mertz,Alexandre Belot,Ricard Cervera,Tyng Yu Chuah,Lorenzo Dagna,Laura Damian,Debashish Danda,David D'Cruz,Gerard Espinosa,Camille Francès,David Jayne,Kong Kok Ooi,Eugene J. Kucharz,Robert S. Lebovics,Isabelle Marie,Guillaume Moulis,Stanford L. Peng,Aman Sharma,Noboru Suzuki,Toshio Tanaka,Ronald F van Vollenhoven,Jean Sibilia,Jacques-Eric Gottenberg,François Chasset,Laurent Arnaud +24 more
TL;DR: Le score RPDAM contribuera a ameliorer la prise en charge des patients souffrant de cette pathologie rare mais egalement a standardiser le recueil de donnees pour de prochains essais cliniques.
Reduction of 10-Methylacridinium Ion with Fatty Acids by Photoinduced Electron-Transfer Reactions.
TL;DR: In this article, the 10-methylacridinium ion (AcrH+) is reduced efficiently by fatty acids (RCOOH) in the presence of a base in acetonitrile to yield 9-alkyl-10-methyl acridan selectively under irradiation with visible light via photoinduced electron transfer from RCOO− to the singlet excited state of AcrH+.