Abstract
One of the most challenging issues for the large-scale application of nanomaterials, especially nanocarbons, is the lack of industrial synthetic methods. Sonochemistry, which creates an extreme condition of high pressure and temperature, has been thereby applied for synthesizing a wide variety of unusual nanostructured materials. Hydrodynamic cavitation (HC), characterized by high effectiveness, good scalability, and synergistic effect with other physical and chemical methods, has emerged as the promising sonochemistry technology for industrial-scale applications. Recently, it was reported that HC can not only significantly enhance the performance of biochar, but also preserve or improve the respective chemical composition. Moreover, the economic efficiency was found to be at least one order of magnitude higher than that of conventional methods. Due to the great potential of HC in the industrial-scale synthesis of nanomaterials, the present perspective focuses on the mechanism of sonochemistry, advances in HC applications, and development of hydrodynamic cavitation reactors, which is supposed to contribute to the fundamental understanding of this novel technology.
Highlights
The concept of nanoscience and nanotechnology was first proposed by Richard Feynman in 1959 (Feynman, 1992)
The present paper aims to discuss the mechanism of sonochemistry, recent advances in the Hydrodynamic cavitation (HC) technology development, and its application perspective for synthesis of nanomaterials
HC phenomenon is induced by hydrodynamic cavitation reactor (HCR), i.e., the container for HC reaction, the HC generation efficiency of HCR determines the treatment effect, economy, and applicability of HC technology
Summary
The concept of nanoscience and nanotechnology was first proposed by Richard Feynman in 1959 (Feynman, 1992). HC, which has emerged as the promising technology for various industrial-scale applications, was found to be an effective tool for synthesis of nanomaterials through mechanisms similar to that of AC.
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