Tailored design of a water-based nanoreactor technology for producing processable sub-40 nm 3D COF nanoparticles at atmospheric conditions
Andrea Veciana , Gemma Llauradó-Capdevila , Alvaro Mayoral , Ramon Pons , David Rodríguez-San-Miguel , Lukas Hertle , Hao Ye , Minmin Mao , Semih Sevim , Alessandro Sorrenti , Bumjin Jang , Zuobin Wang , Xiang-Zhong Chen , Bradley J. Nelson , Roc Matheu , Carlos Franco , Salvador Pané , Josep Puigmartí-Luis
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Covalent organic frameworks (COFs) are crystalline materials with intrinsic porosity that offer a wide range of potential applications spanning diverse fields. Yet, the main goal in the COF research area is to achieve the most stable thermodynamic product while simultaneously targeting the desired size and structure crucial for enabling specific functions. While significant progress has been made in the synthesis and processing of 2D COFs, the development of processable 3D COF nanocrystals remains challenging. Here, we present a water-based nanoreactor technology for producing processable sub-40 nm 3D COF nanoparticles at ambient conditions. Significantly, this technology not only improves the processability of the synthesized 3D COF, but also unveils exciting possibilities for their utilization in previously unexplored domains, such as nano/microrobotics and biomedicine, which were limited by larger crystallites.
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