Jan. 30, 2013 — Hydrogen has tremendous potential as an eco-friendly fuel, but it is expensive to produce. Now researchers at Princeton University and Rutgers University have moved a step closer to harnessing nature to produce hydrogen for us.
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The team, led by Princeton chemistry professor Annabella Selloni, takes inspiration from bacteria that make hydrogen from water using enzymes called di-iron hydrogenases. Selloni's team uses computer models to figure out how to incorporate the magic of these enzymes into the design of practical synthetic catalysts that humans can use to produce hydrogen from water.
In this latest paper, Selloni and co-authors present a solution to an issue that has dogged the field: the catalysts designed so far are susceptible to poisoning by the oxygen present during the reaction. By making changes to the catalyst to improve the stability of the structure in water, the researchers found that they had also created a catalyst that is tolerant to oxygen without sacrificing efficiency. What is more, their artificial catalyst could be made from abundant and cheap components, such as iron, indicating that the catalyst could be a cost-effective way of producing hydrogen.
Selloni and her team conducted their research in silico -- that is, using computer modeling. The goal is to learn enough about how these catalysts work to someday create working catalysts that can make vast quantities of inexpensive hydrogen for use in vehicles and electricity production.
The team included Patrick Hoi-Land Sit, an associate research scholar in chemistry at Princeton; Roberto Car, Princeton's Ralph W. *31 Dornte Professor in Chemistry, and Morrel H. Cohen, a Senior Chemist at Princeton and Member of the Graduate Faculty of Rutgers University. Selloni is Princeton's David B. Jones Professor of Chemistry.
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The team, led by Princeton chemistry professor Annabella Selloni, takes inspiration from bacteria that make hydrogen from water using enzymes called di-iron hydrogenases. Selloni's team uses computer models to figure out how to incorporate the magic of these enzymes into the design of practical synthetic catalysts that humans can use to produce hydrogen from water.
In this latest paper, Selloni and co-authors present a solution to an issue that has dogged the field: the catalysts designed so far are susceptible to poisoning by the oxygen present during the reaction. By making changes to the catalyst to improve the stability of the structure in water, the researchers found that they had also created a catalyst that is tolerant to oxygen without sacrificing efficiency. What is more, their artificial catalyst could be made from abundant and cheap components, such as iron, indicating that the catalyst could be a cost-effective way of producing hydrogen.
Selloni and her team conducted their research in silico -- that is, using computer modeling. The goal is to learn enough about how these catalysts work to someday create working catalysts that can make vast quantities of inexpensive hydrogen for use in vehicles and electricity production.
The team included Patrick Hoi-Land Sit, an associate research scholar in chemistry at Princeton; Roberto Car, Princeton's Ralph W. *31 Dornte Professor in Chemistry, and Morrel H. Cohen, a Senior Chemist at Princeton and Member of the Graduate Faculty of Rutgers University. Selloni is Princeton's David B. Jones Professor of Chemistry.
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The above story is reprinted from materials provided by Princeton University. The original article was written by Catherine Zandonella.
Note: Materials may be edited for content and length. For further information, please contact the source cited above.
Note: Materials may be edited for content and length. For further information, please contact the source cited above.
Journal Reference:
- P. H.- L. Sit, R. Car, M. H. Cohen, A. Selloni. Oxygen tolerance of an in silico-designed bioinspired hydrogen-evolving catalyst in water. Proceedings of the National Academy of Sciences, 2013; DOI: 10.1073/pnas.1215149110
Disclaimer: Views expressed in this article do not necessarily reflect those of ScienceDaily or its staff.