articleNature CommunicationsApr 18, 2025GOLD OA

Organic magnetic nanoparticles catalyze CO2 capture in hydrogen-bonded nanocages via water-driven crystallization

TWTian WangAHAliakbar HassanpouryouzbandMFMengge FanCMChalachew MebrahtuLZLunxiang Zhang

Dalian University of Technology · RWTH Aachen University · +3 more institutions

PubMed
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Abstract

Abstract Limiting global warming increasingly relies on the development of environmentally friendly CO 2 capture strategies. Crystallization is renowned for versatile separation and purification, yet traditional compound crystallization-based CO 2 capture still necessitates intricate preparation processes, stringent reaction conditions, and high regenerative energy consumption. As an ambitious sustainability goal, natural water could be used as a precursor of crystallization to construct hydrogen-bonded water cages for CO 2 capture, but main obstacles are slow crystallization kinetics and low capture capacity. Here, a water-activation-induced crystallization strategy by organic magnetic nanoparticles…

Citation impact

44
total citations
FWCI
24.53
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100%
References
69
Citations per year

Authors

6

Topics & keywords

Topics
Keywords
  • Crystallization
  • Nanocages
  • Nucleation
  • Chemical engineering
  • Nanomaterials
  • Materials science
  • Nanoparticle
  • Magnetic nanoparticles
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