Klaus Lackner

Klaus S. Lackner is the director of the Center for Negative Carbon Emissions (CNCE) and a professor in School of Sustainable Engineering and the Built Environment at Arizona State University.[2][3] He is a pioneer in carbon management and is the first to suggest capturing carbon dioxide from air in the context of addressing climate change.[4][5]

Klaus S. Lackner
Alma materHeidelberg University
(Ph.D. 1978, Diplom 1976)[1]
Known forCarbon Dioxide Capture and Sequestration
Scientific career
FieldsTheoretical Physics, Environmental Engineering
InstitutionsLos Alamos National Laboratory, Columbia University, Arizona State University

His works include demonstrating and improving passive methods to remove carbon dioxide from the atmosphere, integrating air capture technology with applications for using carbon dioxide, exploring safe and permanent disposal options for carbon dioxide, and identifying opportunities for automation and scaling.[6]As of 28 December 2019 his publications have been cited 12771 times and his h-index is 53.[7]

Previously, he was the director of the Lenfest Center for Sustainable Energy at the Earth Institute and Faculty in the Earth and Environmental Engineering department at Columbia University from 2001-2014. Along with CNCE executive director Allen Wright, he co-founded one of the first privately held air capture companies—Global Research Technologies (GRT)—in Tucson, Arizona where they demonstrated the moisture swing.[8]

Prior to his academic work he held appointments at the theoretical division of Los Alamos National Laboratory for nearly 17 years.

His idea of the self-replicating machines along with his colleague, Christopher Wendt, was featured in 1995 by Discover Magazine as "One of the 7 Ideas that can Change the World."[9]

He has also Invented Synthetic Tree which is designed to soak up passively the carbon dioxide from the air.

Synthetic trees

Klaus designed the Synthetic tree or fake tree,[10] which claims[11] to soak up passively the carbon dioxide from the air using leaves that are 1,000 times[12] more efficient than true leaves that use photosynthesis.[13][14]

Articles

  • "The Effect of Moisture on the Hydrolysis of Basic Salts". Chemistry: A European Journal. 22 (51): 18326–18330. Nov 2016. doi:10.1002/chem.201603701. PMID 27762459.
  • "Capture CO2 from Ambient Air Using Nanoconfined Ion Hydration". Angewandte Chemie. 55 (12): 4026–4029. Feb 2016. doi:10.1002/anie.201507846. PMID 26914978.
  • "The urgency of the development of CO2 capture from ambient air". Proceedings of the National Academy of Sciences of the United States of America. 109 (33): 13156–13162. June 2012. Bibcode:2012PNAS..10913156L. doi:10.1073/pnas.1108765109. PMC 3421162. PMID 22843674.
  • "Washing carbon out of the air". Scientific American. 302 (6): 48–53. June 2010. Bibcode:2010SciAm.302f..66L. doi:10.1038/scientificamerican0610-66. PMID 20521482.
  • "Capture of carbon dioxide from ambient air". European Physical Journal ST. 176 (1): 93–106. September 2009. Bibcode:2009EPJST.176...93L. doi:10.1140/epjst/e2009-01150-3. S2CID 8010722.

References

  1. "Klaus Lackner, Ph.D. - Center for Negative Carbon Emissions". Arizona State University. Retrieved 2016-12-06.
  2. "People | Center for Negative Carbon Emissions". Arizona State University. Retrieved 2019-12-28.
  3. "Klaus Lackner - Person". Julie Ann Wrigley Global Institute of Sustainability. Retrieved 2019-12-28.
  4. http://wordpress.ei.columbia.edu/lenfest/files/2012/11/Carbon-dioxide-extraction-from-air-is-it-an-option.pdf
  5. Lackner, Klaus S.; Wendt, Christopher H.; Butt, Darryl P.; Joyce, Edward L.; Sharp, David H. (1995). "Carbon dioxide disposal in carbonate minerals". Energy. 20 (11): 1153–1170. doi:10.1016/0360-5442(95)00071-N.
  6. "Research | Center for Negative Carbon Emissions". Retrieved 2019-12-28.
  7. "Klaus S Lackner". Google Scholar. Retrieved 2019-12-28.
  8. Wang, Tao; Lackner, Klaus S.; Wright, Allen (2011). "Moisture Swing Sorbent for Carbon Dioxide Capture from Ambient Air". Environmental Science. 45 (15): 6670–6675. Bibcode:2011EnST...45.6670W. doi:10.1021/es201180v. PMID 21688825.
  9. Bass, Thomas (October 1, 1995). "Robot, Build Thyself". Discover Magazine. Retrieved 2019-12-28.
  10. "Is there a market for a synthetic tree that can move around? - NYTimes.com". archive.nytimes.com.
  11. "'Synthetic tree' claims to catch carbon in the air - CNN.com". edition.cnn.com.
  12. "Synthetic Tree Captures Carbon 1,000 Faster Than Real Trees". phys.org.
  13. Vince, Gaia. "Sucking CO2 from the skies with artificial trees". www.bbc.com.
  14. McFarland, Matt (January 12, 2016). "Could artificial trees be part of the climate change solution?" via www.theguardian.com.
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