Carter, M.
, Nguyen, H.
, Allen, A.
, Yi, F.
, Yang, W.
, Baumann, A.
, McGivern, W.
, Manion, J.
, Kuzmenko, I.
, Tsinas, Z.
, Wentz, C.
, Wenny, M.
, Siderius, D.
, van Zee, R.
, Stafford, C.
and Brown, C.
(2024),
Progress in development of characterization capabilities to evaluate candidate materials for direct air capture applications, Journal of CO2 Utilization, [online], https://doi.org/10.1016/j.jcou.2024.102975, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=958297
(Accessed July 12, 2025)
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Progress in development of characterization capabilities to evaluate candidate materials for direct air capture applications
Published
Author(s)
Marcus Carter, , , , , , , , Ivan Kuzmenko, , , Malia Wenny, , , ,
Abstract
As part of U.S. national efforts to combat the detrimental effect of global climate change, the National Institute of Standards and Technology (NIST) was recently tasked to support efforts in direct air capture (DAC) of carbon dioxide research and deployment. In order to develop test procedures, materials, and documentary standards, key characterization methods relevant to DAC materials have been investigated and used to identify desirable properties for a potential Standard Reference Material (SRM). Select amine-supported materials that previously showed potential for DAC applications have been characterized using commonly available laboratory methods. Further insights into the adsorption characteristics have been gained from developing and applying more specialized characterization tools ideal for probing low concentrations of carbon dioxide. A broad suite of capabilities that examine relevant properties under appropriate conditions gives the most profound insights into a material's specific performance. We advocate for even more specialized capabilities to be developed and standardized to quantitatively monitor the interactions of CO2 with molecular species in complex and often disordered systems to advance DAC and support carbon dioxide reduction (CDR) in general.Citation
Journal of CO2 Utilization
Volume
89
Pub Type
Journals
Download Paper
Keywords
Direct air capture, Carbon dioxide capture, CCUS, CDR
Citation
Issues
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Created November 1, 2024, Updated July 11, 2025