Passive direct air capture via evaporative carbonate crystallization

[Geoengineering News]

https://www.nature.com/articles/s44286-025-00308-5

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‎Authors: Dongha Kim, Shijie Liu, Tevin Devasagayam, Rui Kai Miao, Jiheon Kim, Hyeon Seok Lee, Yuxuan Gao, Kevin Golovin, Todd Scheidt & David Sinton 

27 November 2025

Abstract

Direct air capture of CO2 is needed to mitigate past emissions and those of persistent and difficult-to-abate sources. Current liquid-sorbent-based direct air capture relies on large-scale air handling and coupled sorbent–solid chemical loops, but the complexity and cost of this approach are barriers to scaling. Here we report a departure from established capture mechanisms in which ultraconcentrated KOH solutions (>9 M) achieve rapid CO2-to-carbonate crystallization at the air interface. On the basis of this finding, we develop a carbonate crystallizer that leverages evaporation to concentrate KOH on a wicking substrate, enabling the stable, passive capture of atmospheric CO2 directly into a solid form. This approach achieves a capture flux over sixfold that of conventional systems, with regeneration demonstrated via a subsequent electrochemical step. A module with 100 such crystallizers achieved an average capture flux over threefold that of conventional contactors, with sustained operation over seven cycles and 25 days. This passive, single-chemical-loop approach has the potential to reduce capital and levelized costs by approximately 42% and 32%, respectively, compared with conventional liquid-based direct air capture systems.

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Source: Nature Chemical Engineering