Electrochemistry of Insertion Materials for Hydrogen and Lithium [electronic resource] / by Su-Il Pyun, Heon-Cheol Shin, Jong-Won Lee, Joo-Young Go.
By: Pyun, Su-Il [author.].
Contributor(s): Shin, Heon-Cheol [author.] | Lee, Jong-Won [author.] | Go, Joo-Young [author.] | SpringerLink (Online service).
Material type:![materialTypeLabel](/opac-tmpl/lib/famfamfam/BK.png)
Electrochemical Methods -- Hydrogen Absorption into and Subsequent Diffusion through Hydride-Forming Metals -- Hydrogen Transport under Impermeable Boundary Conditions -- Hydrogen Trapping inside Metals and Metal Oxides -- Generation of Internal Stress during Hydrogen and Lithium Transport -- Abnormal Behaviors in Hydrogen Transport: Importance of Interfacial Reactions -- Effect of Cell-impedance on Lithium Transport -- Lithium Transport through Electrode with Irregular/Partially-Inactive Interfaces. .
The understanding of hydrogen/lithium insertion phenomena is of great importance for the development of the next generation of functional electrochemical devices such as rechargeable batteries, electrochromic devices, and fuel cells. This volume introduces a variety of viable electrochemical methods to identify reaction mechanisms and evaluate relevant kinetic properties of insertion electrodes. The authors also outline various ways to analyze anomalous behaviour of hydrogen/lithium transport through insertion electrodes.
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