He Wei, Yu Yikuan, Iizuka Kenta, Takezawa Hiroki, Fujita Makoto
Department of Applied Chemistry, School of Engineering, The University of Tokyo, Mitsui Link Lab Kashiwanoha 1, FS CREATION, Kashiwa, Japan.
Tokyo College, UT Institutes for Advanced Study (UTIAS), The University of Tokyo, Mitsui Link Lab Kashiwanoha 1, FS CREATION, Kashiwa, Japan.
Nat Chem. 2025 May;17(5):653-662. doi: 10.1038/s41557-025-01750-x. Epub 2025 Mar 5.
The crystalline sponge method enables single-crystal X-ray diffraction analysis of guests absorbed within single-crystalline porous materials. However, its application with large or highly polar guests remains challenging. In this study, we addressed some of these limitations using palladium-based octahedron-shaped ML (T) coordination cages as crystalline sponges. The key to facilitate the crystallization of the cage is the addition of large aromatic polysulfonates ('sticker' anions); the symmetry mismatch between the cage and the sticker (D) results in a low-symmetry space group (P ), preventing guest disorder and leading to the formation of guest-accessible channels in the crystal. Guests can be encapsulated either before or after cage crystallization. The size and host-guest properties of the cavity enable analysis of a broad range of compounds, including water-soluble molecules, large amphiphilic molecules (molecular weight of ~1,200) and molecular aggregates. We have demonstrated the versatility of the cage-sticker strategy through its application to a triaugmented triangular-prism-shaped ML cage, extending the guest scope to medium-sized pharmaceutical molecules.
晶体海绵法能够对单晶多孔材料中吸收的客体进行单晶X射线衍射分析。然而,将其应用于大型或高极性客体仍然具有挑战性。在本研究中,我们使用钯基八面体形状的ML(T)配位笼作为晶体海绵来解决其中一些限制。促进笼状化合物结晶的关键是添加大型芳香族聚磺酸盐(“贴纸”阴离子);笼状化合物与贴纸(D)之间的对称性不匹配导致低对称空间群(P ),防止客体无序排列并导致晶体中形成客体可进入的通道。客体可以在笼状化合物结晶之前或之后被封装。空腔的大小和主客体性质使得能够分析广泛的化合物,包括水溶性分子、大型两亲分子(分子量约为1200)和分子聚集体。我们通过将笼-贴纸策略应用于三棱柱形的ML笼,证明了该策略的通用性,将客体范围扩展到中等大小的药物分子。
