Resolving the Chemical Identity of H2SO4 Derived Anions on Pt(111) Electrodes: 
They’re Sulfate

Zhang, Igor Ying; Zwaschka, Gregor; Wang, Zhenhua; Wolf, Martin; Campen, R. Kramer; Tong, Yujin

doi:10.1039/c9cp03397a

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Resolving the Chemical Identity of H₂SO₄ Derived Anions on Pt(111) Electrodes: They’re Sulfate

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Zhang, Igor Ying
Department of Chemistry, Fudan University;
NOMAD, Fritz Haber Institute, Max Planck Society;

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Zwaschka, Gregor
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Wolf, Martin
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Campen, R. Kramer
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Tong, Yujin
Physical Chemistry, Fritz Haber Institute, Max Planck Society;

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Citation

Zhang, I. Y., Zwaschka, G., Wang, Z., Wolf, M., Campen, R. K., & Tong, Y. (2019). Resolving the Chemical Identity of H₂SO₄ Derived Anions on Pt(111) Electrodes: They’re Sulfate. Physical Chemistry Chemical Physics, 21(35), 19147-19152. doi:10.1039/c9cp03397a.

Cite as: https://hdl.handle.net/21.11116/0000-0004-820C-C

Abstract

Understanding how electrolyte composition controls electrocatalytic reactions requires molecular-level insight into electrode/electrolyte interaction. Perhaps the most basic aspect of this interaction, the speciation of the interfacial ion, is often controversial for even relatively simple systems. For example, for Pt(111) in 0.5 M H₂SO₄ it has long been debated whether the adsorbed anion is SO₄²⁻, HSO₄⁻ or an H₃O⁺···SO₄²⁻ ion pair. Here we apply interface-specific vibrational sum frequency (VSF) spectroscopy and theory to this problem and perform an isotope exchange study: we collect VSF spectra of Pt(111) in H₂SO₄(H₂O) and D₂SO₄(D₂O) as a function of bias and show that at all potentials they are identical. This is the most direct spectroscopic evidence to date that SO₄²⁻ is the dominant adsorbate, despite the fact that at 0.5 M H₂SO₄ bulk solution is dominated by HSO₄^-. This approach is based on the unique selection rule of the VSF spectroscopy and thus offers a new way of accessing general electrode/electrolyte interaction in electrocatalysis.