2023
DOI: 10.1021/acs.inorgchem.3c01572
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Balance between Activity and Stability of Single Metal and Intermetallic Compounds for Electrocatalytic Hydrogen Evolution Reaction

Abstract: The higher population of the antibonding state around the Fermi level will result in better activity yet lower stability of HER (Re vs Ru metal). There seems to be a limitation or balance for using a single metal since the bonding scheme of a single metal is relatively simple. Combining Re (strong bonding), Ru (HER active), and Zr metal (corrosion-resistant) grants ternary intermetallic compound ZrRe1.75Ru025, exhibiting excellent HER activity and stability in acidic and alkaline electrolytes. The overpotentia… Show more

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Cited by 2 publications
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“…The Laves phase (general formula AB 2 ) is an excellent candidate to testify the assumption mentioned above because nearly all transitional metals can form this phase with appropriate chemical combinations. , Consequently, ZrCo 2 and NbCo 2 , two Laves intermetallic compounds, were used as the host with the incorporation of a small amount of group VIII transition metals to fabricate two series, namely, ZrCo 1.75 M 0.25 and NbCo 1.75 M 0.25 ( M = Fe, Co, Ni, Ru, Rh, Pd, Os, Ir, and Pt). The main reason we select the Zr and Nb systems for comparison is because the electronegativity of Zr is lower than that of Nb (χ Zr = 1.33; χ Nb = 1.60, Pauling scale). , The Co or M element in ZrCo 1.75 M 0.25 will receive more electron (i.e., higher d electron population) than that of NbCo 1.75 M 0.25 (Figure a), which allows us to investigate the correlation between the d electron population and the corresponding HER activity.…”
Section: Introductionmentioning
confidence: 99%
“…The Laves phase (general formula AB 2 ) is an excellent candidate to testify the assumption mentioned above because nearly all transitional metals can form this phase with appropriate chemical combinations. , Consequently, ZrCo 2 and NbCo 2 , two Laves intermetallic compounds, were used as the host with the incorporation of a small amount of group VIII transition metals to fabricate two series, namely, ZrCo 1.75 M 0.25 and NbCo 1.75 M 0.25 ( M = Fe, Co, Ni, Ru, Rh, Pd, Os, Ir, and Pt). The main reason we select the Zr and Nb systems for comparison is because the electronegativity of Zr is lower than that of Nb (χ Zr = 1.33; χ Nb = 1.60, Pauling scale). , The Co or M element in ZrCo 1.75 M 0.25 will receive more electron (i.e., higher d electron population) than that of NbCo 1.75 M 0.25 (Figure a), which allows us to investigate the correlation between the d electron population and the corresponding HER activity.…”
Section: Introductionmentioning
confidence: 99%