2021
DOI: 10.1039/d1na00038a
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A power-triggered preparation strategy of nano-structured inorganics: sonosynthesis

Abstract: Ultrasound irradiation covers many chemical reactions crucially aiming to design and synthesize various structured materials as an enduring trend in the frontier researches. Here we focus on the latest progress...

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Cited by 30 publications
(9 citation statements)
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References 175 publications
(212 reference statements)
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“…Ultrasonic cavitation is an instantaneous process induced by US irradiation in a liquid, where some extreme transient conditions (e.g., localized high pressure and temperature) can be created to complete various chemical and/or mechanical effects for the initial, midlevel, or terminal applications. As we know, US irradiation theoretically has no direct interactions with the medium except oscillating propagation at a molecular level since it is a mechanical wave with large wavelength. However, unnumbered microbubbles will be produced from primary gasification centers (e.g., gases, gaseous impurities) when US propagates in a liquid, and they progressively grow owing to a continuous gas inflow. During the process, ultrasonic energy is also effectively accumulated within a small space so as to finally form an enormous energy concentration.…”
Section: Ultrasonic Cavitationmentioning
confidence: 99%
“…Ultrasonic cavitation is an instantaneous process induced by US irradiation in a liquid, where some extreme transient conditions (e.g., localized high pressure and temperature) can be created to complete various chemical and/or mechanical effects for the initial, midlevel, or terminal applications. As we know, US irradiation theoretically has no direct interactions with the medium except oscillating propagation at a molecular level since it is a mechanical wave with large wavelength. However, unnumbered microbubbles will be produced from primary gasification centers (e.g., gases, gaseous impurities) when US propagates in a liquid, and they progressively grow owing to a continuous gas inflow. During the process, ultrasonic energy is also effectively accumulated within a small space so as to finally form an enormous energy concentration.…”
Section: Ultrasonic Cavitationmentioning
confidence: 99%
“…3a, the ultrasonic waves applied on precursor materials constantly can lead to the generation of substantial cavitation bubbles, and local heating and large pressure can be generated due to the energy conversion and quenching of cavitation bubbles. 40 The formation of pressure can be modulated by different calculation models, such as ultrasonic pulse-echo, 41 the ultrasonic resonance method, 42 the ultrasonic attenuation method, etc. (Fig.…”
Section: Ultrasound-assisted Synthesis Of Photocatalystsmentioning
confidence: 99%
“…Ultrasonic waves, like other sound waves, pass through any physical medium, compressing and stretching the molecular spacing of the medium through which they pass. During the negative pressure cycle, the liquid is pulled apart at sites containing a gaseous impurity, known as a ‘weak spot’ in the liquid [ 19 ]. When the negative pressure is large enough, the distance between the molecules of the liquid exceeds the maximum molecular distance required to hold the liquid in contact, and then the liquid breaks down, creating voids.…”
Section: Cavitationmentioning
confidence: 99%