American Chemical Society
ic9b02126_si_001.pdf (3.72 MB)

Control of the Metal Composition in Bimetallic Mg/Zn(dobpdc) Constructed from a One-Dimensional Zn-Based Template

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journal contribution
posted on 2019-10-09, 16:04 authored by Hyojin Kim, Hwa Young Lee, Dong Won Kang, Minjung Kang, Jong Hyeak Choe, Woo Ram Lee, Chang Seop Hong
While mixed-metal ions into a single framework can be randomly arranged in most reported cases, it is synthetically challenging to control and organize the distribution of different metal ions over a three-dimensional structure. In this context, for the family of M2(dobpdc) with broad applications, we present the first case of a bimetallic Mg/Zn­(dobpdc) framework with a 1:1 compositional ratio, based on a one-dimensional Zn­(H2dobpdc) template, which would not be obtained by the conventional reaction of the corresponding metal salts. Moreover, we demonstrate that the resultant compositional ratios in the bimetallic M′/Zn­(dobpdc) (M′ = Mg, Mn, Co, Ni) are governed by the ionic radii of the metals and the affinity of the metal ions for the linker groups. Notably, the unexpected gradual reduction in the adsorption enthalpy and the mixed CO2 adsorption feature are revealed in Mg/Zn­(dobpdc) and its diamine-grafted framework, respectively.