Advances in the synthesis of ZnO nanomaterials for varistor devices
Citation:
Suresh C. Pillai, John M. Kelly, Raghavendra Ramesh and Declan E. McCormack, Advances in the synthesis of ZnO nanomaterials for varistor devices, Journal of Materials Chemistry C, 2013, 1-14Download Item:
Abstract:
ZnO based varistors are widely used for overvoltage protection in many electrical and electronic circuits, at
voltages ranging from a few to over a million volts. By careful control of the microstructure, through nano-
structuring by chemical routes, it should be possible to produce varistors with high breakdown voltage (
V
c
),
as this is proportional to the number of active grain boundaries in the sintered body. This property is
particularly important for the production of the small-sized varistors needed for modern electronic
instruments such as tablet computers and mobile phones. The current review will outline the recent
advances in the chemical processing (
e.g.
sol
?
gel, combustion synthesis plasma pyrolysis, micro-emulsion
synthesis and precipitation routes) of varistors from ZnO nanomaterials and the properties of these
materials. Uncontrolled grain growth at higher temperature is highlighted as a major challenge for
obtaining desirable electrical properties for nano-varistors. Various novel sintering techniques such as
step-sintering, spark plasma and microwave sintering methods are expected to deliver a varistor with
controlled grain growth and optimum electrical characteristics
Author's Homepage:
http://people.tcd.ie/jmkellyDescription:
PUBLISHED
Author: KELLY, JOHN MOFFAT
Type of material:
Journal ArticleSeries/Report no:
Journal of Materials Chemistry C;Availability:
Full text availableKeywords:
varistors with high breakdown voltageMetadata
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