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Carbon nanostructures in portable fuel cells: Single- walled carbon nanotube electrodes for methanol oxidation and oxygen reduction

journal contribution
posted on 2024-11-07, 20:03 authored by G. Girishkumar, K. Vinodgopal, D. Meisel, P. V. Kamat
Many energy storage and conversion devices rely on processes that take place at complex interfaces, where structural and chemical properties are often difficult to probe under operating conditions. A primary example is solar water splitting using high-performance photoelectrochemical cells, where surface chemistry, including native oxide formation, affects hydrogen generation. In this Perspective, we discuss some of the challenges associated with interrogating interface chemistry, and how they may be overcome by integrating high-level first-principles calculations of explicit interfaces with ambient pressure X-ray photoelectron spectroscopy and direct spectroscopic simulations. We illustrate the benefit of this combined approach toward insights into native oxide chemistry at prototypical InP/water and GaP/water interfaces. This example suggests a more general roadmap for obtaining a realistic and reliable description of the chemistry of complex interfaces by combining state-of-the-art computational and experimental techniques

Funding

U.S. Army CECOM RDEC

History

Temporal Coverage

2004

Extent

Page 19960-6

Publisher

J. Phys. Chem. B

Source

Volume 108

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