Abstract
AbstractThe ability to incorporate functional metal ions (Mn+) into metal–organic coordination complexes adds remarkable flexibility in the synthesis of multifunctional organic–inorganic hybrid materials with tailorable electronic, optical, and magnetic properties. We report the cation‐exchanged synthesis of a diverse range of hollow Mn+‐phytate (PA) micropolyhedra via the use of hollow Co2+‐PA polyhedral networks as templates at room temperature. The attributes of the incoming Mn+, namely Lewis acidity and ionic radius, control the exchange of the parent Co2+ ions and the degree of morphological deformation of the resulting hollow micropolyhedra. New functions can be obtained for both completely and partially exchanged products, as supported by the observation of Ln3+ (Ln3+=Tb3+, Eu3+, and Sm3+) luminescence from as‐prepared hollow Ln3+‐PA micropolyhedra after surface modification with dipicolinic acid as an antenna. Moreover, Fe3+‐ and Mn2+‐PA polyhedral complexes were employed as magnetic contrast agents.
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