Advances in Electrochemical Energy Materials

Advances in Electrochemical Energy Materials

Electrochemical energy storage is becoming essential for portable electronics, electrified transportation, integration of intermittent renewable energy into grids, and many other energy and power applications. The electrode materials and their structures, in addition to the electrolytes, play key ro...

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Bibliographic Details
Main Author: Fan, Zhaoyang (auth)
Other Authors: Li, Shiqi (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
lithium ion batteries
microstructure
zinc sulfide
material index
solid-state complexation method
submicron powder
X-ray diffraction
vertical graphene
garnet
electrochemical energy storage
biotemplate
nanotubes
cathode material
Cr3+/Cr6+ redox pairs
mechanical stability
cathode materials
supercapacitors
electrochemical properties
Co-doping
elasto-plastic stress
inductively-coupled plasma
water
voltage decay
Mn3O4
thermal annealing
parametric analysis
solid-state batteries
pulse power storage
cycling performance
energy storage and conversion
anode material
carbon nanostructures
Li ion battery
electrode materials
Li2MoO3
lithium-ion conductivity
lithium-ion batteries
voltage attenuation
methanol
specific capacity
lithium-ion battery
sulfidation
solid-state electrolyte
lithium-rich layered oxide
Li-rich layered oxide
carbon microfibers
specific capacitance
nanostructure
green synthesis route
0.5Li2MnO3·0.5LiMn0.8Ni0.1Co0.1O2
ZIF-67
co-precipitation method
high-rate supercapacitor
LiFePO4/C composite
AC filtering
sol-gel method
electrochemical performance
cross-linked carbon nanofiber
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Description
Summary:Electrochemical energy storage is becoming essential for portable electronics, electrified transportation, integration of intermittent renewable energy into grids, and many other energy and power applications. The electrode materials and their structures, in addition to the electrolytes, play key roles in supporting a multitude of coupled physicochemical processes that include electronic, ionic, and diffusive transport in electrode and electrolyte phases, electrochemical reactions and material phase changes, as well as mechanical and thermal stresses, thus determining the storage energy density and power density, conversion efficiency, performance lifetime, and system cost and safety. Different material chemistries and multiscale porous structures are being investigated for high performance and low cost. The aim of this Special Issue is to report the recent advances in materials used in electrochemical energy storage that encompass supercapacitors and rechargeable batteries.
Physical Description:1 electronic resource (156 p.)
ISBN:books978-3-03928-643-0
9783039286423
9783039286430
Access:Open Access

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