Neuerscheinungen 2011Stand: 2020-01-07 |
Schnellsuche
ISBN/Stichwort/Autor
|
Herderstraße 10 10625 Berlin Tel.: 030 315 714 16 Fax 030 315 714 14 info@buchspektrum.de |
Alexei Esmanski
Silicon Inverse Opal Materials as Electrodes for Lithium-Ion Batteries
Synthesis, Characterisation and Electrochemical Performance
2011. 164 S.
Verlag/Jahr: VDM VERLAG DR. MÜLLER 2011
ISBN: 3-639-35836-8 (3639358368)
Neue ISBN: 978-3-639-35836-0 (9783639358360)
Preis und Lieferzeit: Bitte klicken
Three-dimensional macroporous structures ( opals´ and inverse opals´) can be produced by colloidal crystal templating, one of the most intensively studied areas in materials science today. There are several potential advantages of lithium-ion battery electrodes based on inverse opal structures. High electrode surface, easier electrolyte access to the bulk of electrode and reduced lithium diffusion lengths allow higher discharge rates. Highly open structures provide for better mechanical stability to volume swings during cycling. Silicon is one of the most promising anode materials for lithium-ion batteries. Its theoretical capacity exceeds capacities of all other materials besides metallic lithium. Silicon is abundant, cheap, and its use would allow for incorporation of microbattery production into the semiconductor manufacturing. Performance of silicon is restricted mainly by large volume changes during cycling. The objective of this work was to investigate how the inverse opal structures influence the performance of silicon electrodes. Several types of silicon-based inverse opal films were synthesised, and their electrochemical performance was studied.
Alexei Esmanski holds a Specialist degree in Physical Chemistry from St. Petersburg State University (Russia), and a PhD in Materials Chemistry from the University of Toronto (Canada). Alexei´s research interests lie in the fields of Electrochemistry, Colloid Chemistry, and Materials Science.