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Current Microwave Chemistry

Editor-in-Chief

ISSN (Print): 2213-3356
ISSN (Online): 2213-3364

Review Article

High Temperature Microwave Oven Treatments

Author(s): Angel Morales-Rubio and Miguel de la Guardia

Volume 4, Issue 1, 2017

Page: [41 - 48] Pages: 8

DOI: 10.2174/2213335602666150817214430

Price: $65

Abstract

Background: A literature survey on the use of High Temperature Microwave Oven Treatments focused on the sample pretreatment of different matrix types, from the digestion of samples with high organic content such as foods, to those with high mineral content such as rocks, and also considering microwave assisted synthesis of products including nanomaterials has been made. From the first application published in 1992, not too many papers have been found in the literature. An additional topic, like microwave pyrolysis as a remediation technology, has been considered in this review.

Methods: Examples of different applications are presented, i) Microwave high temperature treatments for the determination of analytical parameters, ii) Microwave high temperature for ceramic synthesis, iii) Microwave high temperature for alloying and magnetic ores separation, iv) Microwave high temperature in nanoparticle synthesis, v) Microwave high temperature waste treatment.

Results: It seems clear from this literature update that microwave-assisted synthering has been the most useful application found in the last years for high temperature microwave treatments and it is a promising field which will continue to provide exciting possibilities in the development of new materials and new properties of old products synthesized by traditional processes. On the other hand, the reduced consume of energy and the increased efficiency of microwave-assisted treatments in front of those based on classical convective heating systems is a guarantee of its general use in waste treatment and waste valorization.

Conclusion: In spite that the pioneering studies were focused on dry-ashing microwave assisted treatments, this way has been scarcely exploited due to the advances in the development of high sensitive techniques for mineral profile determination of samples. However, we are confident that the tremendous advantages offered by microwave-assisted dry ashing will provide new developments on this field in a near future, in which, probably one of the aspects which remains practically unexploited is the search for alternative energy catcher materials suitable to replace the traditional use of silicon carbide.

Keywords: Ash determination, furnace microwave dry ashing, microwave muffle, microwave oven high temperature, pyrolysis, remediation, synthesis of nanomaterials, waste valorization.

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