What question did this study set out to answer?

To critically review moisture swing adsorption technology for direct air capture processes, focusing on CO2 adsorption mechanisms.

March 14, 2026

Moisture Swing Adsorption Materials for Direct Air Capture: A Critical Review

Key Points

To critically review moisture swing adsorption technology for direct air capture processes, focusing on CO2 adsorption mechanisms.
Reviewed fundamental principles of moisture swing adsorption.
Analyzed recent advancements in quaternary ammonium-based adsorbents.
Evaluated operational innovations, including a six-step moisture swing adsorption cycle.
Identified significant improvements in cycling stability and mass transfer efficiency of adsorbents.
Highlighted the potential of non-quaternary ammonium adsorbents for energy reduction.
Showed advancements in functionalization strategies leading to enhanced kinetic performance.

Abstract

Moisture swing adsorption (MSA) technology has emerged as a promising approach for direct air capture (DAC) of CO2 due to its energy efficiency and operational flexibility. This review examines the fundamental principles of MSA, with a focus on the thermodynamic and kinetic mechanisms governing humidity-driven CO2 adsorption and desorption. Recent advancements in quaternary ammonium (QA)-based adsorbents are analyzed, focusing on optimized material carriers, advanced formation techniques, and targeted functionalization strategies. These approaches lead to improvements in cycling stability, mass transfer efficiency, and kinetic performance. Emerging non-QA adsorbents and process innovations, exemplified by the six-step MSA cycle, demonstrate substantial potential for improving scalability and reducing energy consumption. This work provides a framework for developing next-generation MSA materials and advancing DAC applications.

Bookmark

Moisture Swing Adsorption Materials for Direct Air Capture: A Critical Review

Key Points

Abstract

Cite This Study