Issue 9, 2017

Effects of composition and nanostructuring of palladium selenide phases, Pd4Se, Pd7Se4 and Pd17Se15, on ORR activity and their use in Mg–air batteries

Abstract

The increasing demand for conversion and storage of energy has been the driving force for scientific pursuits towards developing novel, highly active and selective materials. In the present study, different phases of palladium selenides (Pd4Se, Pd7Se4 and Pd17Se15) are synthesized and explored as electrocatalysts for the oxygen reduction reaction (ORR). Various palladium selenide phases are synthesized using a facile and cost effective method of thermolysis of metal–didecylselenium precursor complexes. The effect of the composition of different phases on catalytic activity towards the ORR is studied. Among the three phases, Pd4Se is observed to show good catalytic properties with fast kinetics. A four-electron reduction pathway is deciphered in the case of the palladium rich Pd4Se phase while the reaction terminates at the peroxide stage when Pd17Se15 is used as the catalyst. Possible reasons based on differences in the environment around Pd for the three phases are indicated. However, nanostructuring improves the catalytic activity of the palladium deficient phase, Pd17Se15, and a four-electron pathway is observed in the case of nanorods. The use of various conducting supports affects the catalytic activities and reduced graphene oxide (rGO) is found to improve the activity of the bulk Pd17Se15 phase. The selenide-based materials are employed as ORR catalysts in air-breathing Mg–air primary batteries with Pd4Se showing high specific discharge capacity.

Graphical abstract: Effects of composition and nanostructuring of palladium selenide phases, Pd4Se, Pd7Se4 and Pd17Se15, on ORR activity and their use in Mg–air batteries

Supplementary files

Article information

Article type
Paper
Submitted
09 Jan 2017
Accepted
30 Jan 2017
First published
31 Jan 2017

J. Mater. Chem. A, 2017,5, 4660-4670

Effects of composition and nanostructuring of palladium selenide phases, Pd4Se, Pd7Se4 and Pd17Se15, on ORR activity and their use in Mg–air batteries

S. Kukunuri, K. Naik and S. Sampath, J. Mater. Chem. A, 2017, 5, 4660 DOI: 10.1039/C7TA00253J

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