Chemistry

Scientists design crystalline materials with programmable molecular pockets for targeted applications

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This is an author correction notice for a previously published article in Nature about programming local confinements in crystalline frameworks using reticular chemistry. The correction addresses specific errors or clarifications needed in the original publication regarding the design and synthesis of porous crystalline materials with controlled spatial arrangements at the molecular level. Reticular chemistry involves linking molecular building blocks into extended framework structures with predictable geometries and properties.


The ability to precisely control local environments within crystalline frameworks has important applications in catalysis, gas separation, storage, and drug delivery. Corrections to scientific articles ensure the accuracy and reproducibility of research findings that other scientists may build upon in developing these technologies.


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Crystallography 5 articles Explore Concept → Reticular chemistry Concept coming soon

Source: Author Correction: Programming local confinements in crystalline frameworks through reticular chemistry