51985-45-6Relevant academic research and scientific papers
Three-Dimensional Porous Architectures Based on MnII/III Three-Blade Paddle Wheel Metallacryptates
Marzaroli, Vittoria,Spigolon, Giulia,Lococciolo, Giuseppe,Quaretti, Martina,Salviati, Clarissa,Kampf, Jeff W.,Licini, Giulia,Marchiò, Luciano,Pecoraro, Vincent L.,Tegoni, Matteo
, p. 1954 - 1964 (2019/03/02)
Three metallacryptate supramolecular assemblies have been obtained using salicylhydroxamic acid derivatives (H3L). The three ligands differ in the residue at the para position with respect to the hydroxamic function (-H, -NH2, and -(
Modulating Guest Uptake in Core–Shell MOFs with Visible Light
Mutruc, Dragos,Goulet-Hanssens, Alexis,Fairman, Sam,Wahl, Sebastian,Zimathies, Annett,Knie, Christopher,Hecht, Stefan
supporting information, p. 12862 - 12867 (2019/08/08)
A two-component core–shell UiO-68 type metal–organic framework (MOF) with a nonfunctionalized interior for efficient guest uptake and storage and a thin light-responsive outer shell was prepared by initial solvothermal MOF synthesis followed by solvent-as
Discovery of a series of acrylic acids and their derivatives as chemical leads for selective EP3 receptor antagonists
Asada, Masaki,Obitsu, Tetsuo,Nagase, Toshihiko,Sugimoto, Isamu,Yamaura, Yoshiyuki,Sato, Kazutoyo,Narita, Masami,Ohuchida, Shuichi,Nakai, Hisao,Toda, Masaaki
experimental part, p. 6567 - 6582 (2009/12/09)
A series of acrylic acids and their structurally related compounds were evaluated for their binding affinity to four EP receptor subtypes (EP1-4). Starting from the initial hit 3, which was discovered in our in-house library, compounds 4 and 5 were identified as new chemical leads as candidates for further optimization towards a selective EP3 receptor antagonist. The identification process of these compounds and their pharmacokinetic profiles are presented.
