Publications
Enhanced cation release via acid pretreatment for gigaton-scale geologic CO₂ sequestration in basalt
Q. Zhang, A. N. Awolayo, P. R. Phelps, S. Vadsariya, C. T. Laureijs, M. D. Eisaman, and B. M. Tutolo: Enhanced cation release via acid pretreatment for gigaton-scale geologic CO2 sequestration in basalt, International Journal of Greenhouse Gas Control, 139, 104266, https://doi.org/10.1016/j.ijggc.2024.104266, 2024.
Regional Uncertainty Analysis in the Air-Sea CO₂ Flux (EES Open Archive Preprint)
L. Gloege and M. D. Eisaman, Regional Uncertainty Analysis in the Air-Sea CO2 Flux, EES Open Archive (preprint), https://doi.org/10.22541/essoar.172838427.77964259/v1, 2024.
Mixing and dilution controls on marine CO₂ removal using alkalinity enhancement
T. Khangaonkar, B. Carter, L. Premathilake, S. K. Yun, W. Ni, M. M. Stoll, N. D. Ward, L. G. Hemery, C. Torres Sanchez, C. Subban, M. Ringham, M. D. Eisaman, T. Pelman, K. Tallam, and R. A. Feely, Mixing and dilution controls on marine CO2 removal using alkalinity enhancement, Environ. Res. Lett., https://doi.org/10.1088/1748-9326/ad7521, 2024.
An assessment of ocean alkalinity enhancement using aqueous hydroxides: kinetics, efficiency, and precipitation thresholds
Mallory C. Ringham, Nathan Hirtle, Cody Shaw, Xi Lu, Julian Herndon, Brendan R. Carter, and Matthew D. Eisaman, An assessment of ocean alkalinity enhancement using aqueous hydroxides: kinetics, efficiency, and precipitation thresholds, Biogeosciences, 21, 3551–3570, https://doi.org/10.5194/bg-21-3551-2024, 2024.
Pathways for marine carbon dioxide removal using electrochemical acid-base generation
M. D. Eisaman, Pathways for marine carbon dioxide removal using electrochemical acid-base generation, Front. Clim., 6, https://doi.org/10.3389/fclim.2024.1349604, 1349604, 2024.
Chapter 3: Assessing the Technical Aspects of Ocean Alkalinity Enhancement Approaches
M. D. Eisaman et al.: Assessing the technical aspects of ocean-alkalinity-enhancement approaches, in: Guide to Best Practices in Ocean Alkalinity Enhancement Research, edited by: A. Oschlies, et al., Copernicus Publications, State Planet, 2-oae2023, 3, https://doi.org/10.5194/sp-2-oae2023-3-2023, 2023.
Simulated Impact of Ocean Alkalinity Enhancement on Atmospheric CO₂ Removal in the Bering Sea
H. Wang, D. J. Pilcher, K. A. Kearney, J. N. Cross, O. M. Shugart, M. D. Eisaman, and B. R. Carter. Earth’s Future, 11, e2022EF002816, https://doi.org/10.1029/2022EF002816, 2023.
The Role of Carbon Capture, Utilization, and Storage for Economic Pathways That Limit Global Warming to Below 1.5°C
J. G. Vitillo, M. D. Eisaman, E. S. P. Aradóttir, F. Passarini, T. Wang, and S. W. Sheehan. iScience, 25, 104237, https://doi.org/10.1016/j.isci.2022.104237, 2022.
Negative Emissions Technologies: The Tradeoffs of Air-Capture Economics
M. D. Eisaman. Joule, 4, 516-520, https://doi.org/10.1016/j.joule.2020.02.007, 2020.
Recycle Loop for Reduced Scaling in Bipolar Membrane Electrodialysis
M. D. Eisaman, inventor; 2015 Dec. 16. US Patent 9,937,471. (April 10, 2018).
Energy Efficient Method for Stripping CO₂ From Seawater
M. D. Eisaman, inventor; 2015 June 11. US Patent 9,914,644. (March 13, 2018).
Fuel Synthesis From an Aqueous Solution
M. D. Eisaman, inventor; 2016 May 26. US Patent 9,914,683. (March 13, 2018).
Hydrocarbon Extraction Through Carbon Dioxide Production and Injection Into a Hydrocarbon Well
M. D. Eisaman and K. E. Cooper, inventors; 2016 May 26. US Patent 9,915,136 (March 13, 2018).
Indirect Ocean Capture of Atmospheric CO₂: Part II. Understanding the Cost of Negative Emissions
M. D. Eisaman, J. L. B. Rivest, S. D. Karnitz, C. - F. de Lannoy, A. Jose, R. W. DeVaul, and K. Hannun. International Journal of Greenhouse Gas Control, 70, 254-261 (2018).
Indirect Ocean Capture of Atmospheric CO₂: Part I. Prototype of a Negative Emissions Technology
C. - F. de Lannoy, M. D. Eisaman, A. Jose, S. D. Karnitz, R. W. DeVaul, K. Hannun, and J. L. B. Rivest. International Journal of Greenhouse Gas Control, 70, 243-253 (2018).
Method for Efficient CO₂ Degasification
M. D. Eisaman, S. D. Karnitz, and J. L. B. Rivest, inventors; 2016 July 7. US Patent 9.873,650 (Jan. 23, 2018).
Building Materials From an Aqueous Solution
M. D. Eisaman, inventor; 2016 May 26. US Patent 9,862,643 (Jan. 9, 2018).
Electrodialytic Separation of CO₂ Gas From Seawater
M. D. Eisaman and K. A. Littau, inventors; 2011 July 6. US patent 9,586,181 (2017, March 7).
Electrodialytic Separation of Gas From Seawater
M. D. Eisaman and K. A. Littau, inventors; 2012 June 29. European patent EP2543427B1 (2015, Nov. 4).
High-Pressure Electrodialysis Device
M. D. Eisaman, K. A. Littau, and D. Larner, inventors; 2010 Dec. 15. US patent 8,784,632 (2014, July 22).
Electrodialytic Separation of Gas From Aqueous Carbonate and Bicarbonate Solutions
M. D. Eisaman and K. A. Littau, inventors; 2010 Dec. 15. US patent 8,778,156 (2014, July 15).
CO₂ Extraction From Seawater Using Bipolar Membrane Electrodialysis
M. D. Eisaman, K. Parajuly, A. Tuganov, C. Eldershaw, N. Chang, and K. A. Littau. Energy & Environmental Science, 5, 7346-7352 (2012).
• Featured as a ‘Hot’ Article on the Royal Society of Chemistry’s Energy & Environmental Science Blog, May 28, 2012
• Featured in Berkeley Science Review, Cleaning the Air by Cleaning the Ocean by A. Goldstein, February 13, 2012
Invited Paper: Energy Storage Via Carbon-Neutral Fuels Made From CO₂, Water, and Renewable Energy
R. J. Pearson, M. D. Eisaman, J. W. G. Turner, P. P. Edwards, Z. Jiang, V. L. Kuznetsov, K. A. Littau, L. di Marco, and S. R. G. Taylor. Proceedings of the IEEE, 100, 440 - 460 (2012).
CO₂ Desorption Using High-Pressure Bipolar Membrane Electrodialysis
M. D. Eisaman, L. Alvarado, D. Larner, P. Wang, and K. A. Littau. Energy & Environmental Science, 4, 4031-4037 (2011).
CO₂ Concentration Using Bipolar Membrane Electrodialysis
M. D. Eisaman, L. Alvarado, D. Larner, P. Wang, B. Garg, and K. A. Littau. Energy & Environmental Science, 4, 1319-1328 (2011).
• Featured as a ‘Hot’ Paper on the Royal Society of Chemistry’s Energy & Environmental Science Blog, December 9, 2010
• Featured as the inside front cover image