SiO2 for electrochemical energy storage applications
To present the results systematically, this paper takes (i) lithium batteries, (ii) sodium batteries, and (ii) zinc batteries as the framework and discusses the application of
Chemical Society Reviews (2019), 48 (1), 285-309 CODEN: CSRVBR; ISSN: 0306-0012. (Royal Society of Chemistry) Silicon oxides have been recognized as a promising family of anode materials for high-energy lithium-ion batteries (LIBs) owing to their abundant reserve, low cost, environmental friendliness, easy synthesis, and high theor. capacity.
Energy & Environmental Science (2012), 5 (5), 6895-6899 CODEN: EESNBY; ISSN: 1754-5706. (Royal Society of Chemistry) SiO2 is one of the most abundant materials on Earth. It is cost-effective and also environmentally benign when used as an energy material.
All-solid-state batteries using a solid-state electrolyte (SE), promise greater energy densities via a Li metal anode as well as enhanced safety, but their development is in its nascent stages and the EIS measurement, cell set-up and modeling approach can be vastly different for various SE chemistries and cell configurations.
In the chem. reactions, SiO and amorphous SiO2 formed lithium silicide (Li4Si5) and lithium silicate (Li2SiO3, Li4SiO4) by reacting with Li. In the electrochem. reactions, cryst. SiO2 did not react with Li though amorphous SiO2 did do so.
PDF includes complete article with source references for printing and offline reading.
Download detailed specifications for our photovoltaic containers, BESS systems, and mobile energy storage solutions.
Industrial Zone 15, ul. Fabryczna 24
Pabianice 95-200, Poland
+48 42 212 00 00
Monday - Friday: 8:00 AM - 5:00 PM CET