Publication: Nanoporous Pd–Cu–Si Amorphous Thin Films for Electrochemical Hydrogen Storage and Sensing
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American Chemical Society (ACS)
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Abstract
Increasing the efficiency of hydrogen storage and release using recent generation metallic glass nanofilms (MGNFs) offers green solutions for nanoscale energy applications. Contrary to flat nanofil...
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nm, Chemical Sciences not elsewhere classified, nanoscale energy applications, Information Systems not elsewhere classified, Biophysics, Electrochemical Hydrogen Storage, μ m thickness, metal-based systems, flow effect, hydrogen storage, electrochemical impedance spectra, Space Science, nm, nm, nm pore diameter, 5 times, Pd, latter case, double-layer capacitance, capillary pressure, hydrogen interaction, nm pore diameter, pore diameters, glass nanofilms, nanoporous alumina support, MGNF, open-pore structures, sample, cyclic voltammetry, conductive behavior, electrode exhibits, equivalent circuit model, hydrogen nanosensors, unit mass, electrochemical performance, CV, impedance values near-DC range, desorption charge difference, Physical Sciences not elsewhere classified, Biotechnology, Biological Sciences not elsewhere classified