Journal article

¹³C NMR guides rational design of nanocatalysts via chemisorption evaluation in liquid phase.

Abstract:: The search for more efficient heterogeneous catalysts remains critical to the chemical industry. The Sabatier principle of maximizing catalytic activity by optimizing the adsorption energy of the substrate molecule could offer pivotal guidance to otherwise random screenings. Here we show that the chemical shift value of an adsorbate (formic acid) on metal colloid catalysts measured by (13)C nuclear magnetic resonance (NMR) spectroscopy in aqueous suspension constitutes a simple experimental descriptor for adsorption strength. Avoiding direct contact between the (13)C atom and the metal surface eliminates peak broadening that has confounded prior efforts to establish such correlations. The data can guide rational design of improved catalysts, as demonstrated here for the cases of formic acid decomposition and formic acid electro-oxidation reactions.

Publication status:: Published

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APA Style

Tedsree, K., Chan, C., Jones, S., Cuan, Q., Li, W., Gong, X., & Tsang, S. (2011). ¹³C NMR guides rational design of nanocatalysts via chemisorption evaluation in liquid phase. Science (New York, N.Y.), 332(6026), 224–228.

MLA Style

Tedsree, K, et al. “¹³C NMR Guides Rational Design of Nanocatalysts via Chemisorption Evaluation in Liquid Phase.” Science (New York, N.Y.), vol. 332, no. 6026, 2011, pp. 224–28.

Chicago Style

Tedsree, K, C Chan, S Jones, et al. 2011. “¹³C NMR Guides Rational Design of Nanocatalysts via Chemisorption Evaluation in Liquid Phase.” Science (New York, N.Y.) 332 (6026): 224–28.
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Publisher copy:: 10.1126/science.1202364

Authors

+ Tedsree, K More by this author

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+ Chan, C More by this author

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+ Jones, S More by this author

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+ Cuan, Q More by this author

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+ Li, W More by this author

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Journal:: Science (New York, N.Y.) More from this journal
Volume:: 332
Issue:: 6026
Pages:: 224-228
Publication date:: 2011-04-01
DOI:: 10.1126/science.1202364
EISSN:: 1095-9203
ISSN:: 0036-8075

Language:: English
Pubs id:: pubs:131106
UUID:: uuid:0d8339cb-21c2-4e4c-ad6f-8ee8946f3ada
Local pid:: pubs:131106
Source identifiers:: 131106
Deposit date:: 2012-12-19
ARK identifier:: ark:/29072/ora_0d8339cb21c24e4cad6f8ee8946f3ada

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Copyright date:: 2011

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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