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Diatomite, known as an absorbent for liquids for over a century, is now found to be an effective absorbent for CO2 gas via combination with different metal‐organic frameworks, as described by D. Zhang, J.‐J. Gu, and co‐workers on page 1229. This finding has the potential to reactivate millions of tons of diatomite to active CO2 absorbents. It also suggests that the silica cell walls of diatoms may...
Diatomite combined with certain metal‐organic frameworks (MOFs) is shown to be an effective CO2 absorbent, although diatomite alone is regarded as inert with respect to CO2 absorption. This finding opens the prospect of reactivating millions of tons of diatomite for CO2 absorption. It also shows for the first time that diatom frustules can act as CO2 buffers, an important link in a successive biological...
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