Ultrathin Free-Standing Oxide Membranes for Electron and Photon Spectroscopy Studies of Solid–Gas and Solid–Liquid Interfaces

Yi-Hsien Lu; Carlos Morales; Xiao Zhao; M. A. Van Spronsen; Artem Baskin; David Prendergast; Peidong Yang; Hans A. Bechtel; Edward S. Barnard; D. Frank Ogletree; Virginia Altoé; L. Soriano; Adam Schwartzberg; Miquel Salmerón

doi:10.1021/acs.nanolett.0c01801

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Ultrathin Free-Standing Oxide Membranes for Electron and Photon Spectroscopy Studies of Solid–Gas and Solid–Liquid Interfaces

Article 2020 en

Authors

YL
Yi-Hsien Lu
CM
Carlos Morales
XZ
Xiao Zhao

Abstract

1 min read

Free-standing ultrathin (∼2 nm) films of several oxides (Al2O3,TiO2, and others) have been developed, which are mechanically robust and transparent to electrons with Ekin ≥ 200 eV and to photons. We demonstrate their applicability in environmental X-ray photoelectron and infrared spectroscopy for molecular level studies of solid-gas (≥1 bar) and solid-liquid interfaces. These films act as membranes closing a reaction cell and as substrates and electrodes for electrochemical reactions. The remarkable properties of such ultrathin oxides membranes enable atomic/molecular level studies of interfacial phenomena, such as corrosion, catalysis, electrochemical reactions, energy storage, geochemistry, and biology, in a broad range of environmental conditions.

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Ultrathin Free-Standing Oxide Membranes for Electron and Photon Spectroscopy Studies of Solid–Gas and Solid–Liquid Interfaces

Abstract

Discussion(0)

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