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Reversing the Activity Center in Doped Pd17Se15 to Achieve High Stability Toward the Electrochemical Hydrogen Evolution Reaction

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dc.contributor.author Sarma, Saurav Ch
dc.contributor.author Kaja, Sai Manoj
dc.contributor.author Ann Mary, KA
dc.contributor.author Peter, Sebastian C
dc.date.accessioned 2022-02-22T09:02:34Z
dc.date.available 2022-02-22T09:02:34Z
dc.date.issued 2020-04-02
dc.identifier.citation Sarma, Kaja, S. M., Ann Mary, K. A., & Peter, S. C. (2020). Reversing the Activity Center in Doped Pd17Se15 to Achieve High Stability Toward the Electrochemical Hydrogen Evolution Reaction. ACS Applied Energy Materials,3(4), 4051–4056. en_US
dc.identifier.issn 2574-0962
dc.identifier.other 10.1021/acsaem.0c00512
dc.identifier.uri http://starc.stthomas.ac.in:8080/xmlui/xmlui/handle/123456789/122
dc.description.abstract The use of hydrogen, being an environmentally cleaner source of energy, may reduce the pressing problem of CO2 emissions due to the burning of conventional fossil fuels. However, the prolonged production of hydrogen is a major issue and can be solved through designing a stable electrocatalyst. In this work, we have designed a Ni-doped Pd17Se15 catalyst that retains its activity for 20000 electrochemical cycles. The enhanced stability of this electrocatalyst can be attributed to the reversal of the activity center from the Pd to the Se center through Ni substitution. The concept of activating the chalcogen center and deactivating the Pd site is supported through theoretical calculations. This work provides a unique strategy of tuning catalysts toward higher activity and stability. en_US
dc.language.iso en en_US
dc.publisher ACS Publications en_US
dc.subject electrocatalysis en_US
dc.subject stability en_US
dc.subject DFT en_US
dc.subject hydrogen evolution reaction en_US
dc.subject water splitting en_US
dc.subject chalcogenides en_US
dc.subject alloying en_US
dc.subject palladium en_US
dc.title Reversing the Activity Center in Doped Pd17Se15 to Achieve High Stability Toward the Electrochemical Hydrogen Evolution Reaction en_US
dc.type Article en_US


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