Pore engineering in crystalline frameworks: from MOF "chemistry" to HOF "mechanics" for advanced drug delivery [0.03%]
晶态框架材料中的孔道工程:“化学”与“力学”的异曲同工之妙——金属有机框架和氢键有机框架的药物传输性能研究
Ke Jiang,Zhining Yuan,Ling Zhang et al.
Ke Jiang et al.
Crystalline porous materials are orchestrating a paradigm shift in precision medicine. Prototypical metal-organic frameworks (MOFs) define the realm of "pore chemistry" by leveraging compact, thermodynamically stable coordination backbones ...
Shengqiang Liu,Leipeng Li,Bing Chen et al.
Shengqiang Liu et al.
Correction for 'Chromium-activated phosphors: from theory to applications' by Shengqiang Liu et al., Chem. Soc. Rev., 2026, 55, 1954-1998, https://doi.org/10.1039/D5CS00957J.
Published Erratum
Chemical Society reviews. 2026 May 13. DOI:10.1039/d6cs90040b 2026
Correction: From solar cells to memristors: halide perovskites as a platform for neuromorphic electronics [0.03%]
更正:从太阳能电池到忆阻器:卤化物钙钛矿作为神经形态电子学的平台
Natalia Yantara,Xuechao Xing,Divyam Sharma et al.
Natalia Yantara et al.
Correction for 'From solar cells to memristors: halide perovskites as a platform for neuromorphic electronics' by Natalia Yantara et al., Chem. Soc. Rev., 2026, 55, 2145-2228, https://doi.org/10.1039/D5CS01222H.
Published Erratum
Chemical Society reviews. 2026 May 14. DOI:10.1039/d6cs90041k 2026
Yongzhi Chen,Zhihao Zhang,Donglin Jiang
Yongzhi Chen
Covalent organic frameworks (COFs) are crystalline porous polymers that provide a versatile platform for designing dimension-specific organic architectures via topology diagrams and constructing diverse materials with structure-originated u...
How far can you go? Extrapolating values of catalytic activity from known protein landscapes in natural and directed evolution [0.03%]
你能走多远?从天然和定向进化中的已知蛋白质景观中推断催化活性的价值上限
Douglas B Kell,Ivayla Roberts
Douglas B Kell
The number of possible variants representing the landscape of a protein sequence of length N residues, made of the standard unmodified proteinogenic amino acids, is 20N; its exhaustive experimental analysis is consequently intractable. Our ...
Chemical insights on covalent organic frameworks for ferroptosis and pyroptosis in cancer [0.03%]
用于癌症细胞铁死亡和炎性坏死的小分子共价有机骨架的化学研究
Eunji Kim,Min-Goo Lee,Yoonji Heo et al.
Eunji Kim et al.
Covalent organic frameworks (COFs), with their customizable structures and properties, can be employed as comprehensive platforms for drug delivery and generating reactive oxygen species (ROS). This Tutorial Review outlines practical guidel...
Francesco Carraro,Miriam de J Velásquez-Hernández,Anita Emmerstorfer-Augustin et al.
Francesco Carraro et al.
This review summarizes recent progress in cell@MOF, cell@COF, and cell@HOF composites from a synthetic biology and materials science perspective. It outlines key synthetic strategies for the synthesis of porous abiotic exoskeletons, focusin...
Yi Wei,Huimin Kang,Yuxuan Wang et al.
Yi Wei et al.
Chiral hybrid metal halides (CHMHs) have emerged as a promising class of ionic crystalline materials for circularly polarized luminescence (CPL). In these materials, organic cations primarily act as chirality sources, whereas the inorganic ...
Surface and interface atomic engineering of ultrathin 2D inorganic materials for small molecule photocatalysis [0.03%]
用于小分子光催化的超薄二维无机材料的表面和界面原子工程技术
Juncheng Zhu,Zijia Lin,Yang Wu et al.
Juncheng Zhu et al.
Ultrathin two-dimensional (2D) inorganic materials, characterized by their exceptionally high specific surface areas and tunable electronic structures, have emerged as ideal platforms for advancing small-molecule photocatalysis. Yet, the in...
Precision graphene nanoribbons: chemical strategies for tailored edge, backbone, and electronic structure [0.03%]
精准石墨烯纳米带:边缘、主链和电子结构的化学调控策略
Xinyu Chen,Yuanhuan Qiu,Jin-Jiang Zhang et al.
Xinyu Chen et al.
Graphene nanoribbons (GNRs), quasi-one-dimensional graphene nanostructures, are promising candidates for next-generation electronic, optoelectronic, and spintronic applications due to their tunable (opto-)electronic and magnetic properties....