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. Mohamed, M. (2016). SONOCHEMISTRY (APPLICATIONS OF ULTRASOUND IN CHEMICAL SYNTHESIS AND REACTIONS): A REVIEW PART I. Al-Azhar Journal of Pharmaceutical Sciences, 53(1), 108-122. doi: 10.21608/ajps.2016.6890
Menshawy . Mohamed. "SONOCHEMISTRY (APPLICATIONS OF ULTRASOUND IN CHEMICAL SYNTHESIS AND REACTIONS): A REVIEW PART I". Al-Azhar Journal of Pharmaceutical Sciences, 53, 1, 2016, 108-122. doi: 10.21608/ajps.2016.6890
. Mohamed, M. (2016). 'SONOCHEMISTRY (APPLICATIONS OF ULTRASOUND IN CHEMICAL SYNTHESIS AND REACTIONS): A REVIEW PART I', Al-Azhar Journal of Pharmaceutical Sciences, 53(1), pp. 108-122. doi: 10.21608/ajps.2016.6890
. Mohamed, M. SONOCHEMISTRY (APPLICATIONS OF ULTRASOUND IN CHEMICAL SYNTHESIS AND REACTIONS): A REVIEW PART I. Al-Azhar Journal of Pharmaceutical Sciences, 2016; 53(1): 108-122. doi: 10.21608/ajps.2016.6890

SONOCHEMISTRY (APPLICATIONS OF ULTRASOUND IN CHEMICAL SYNTHESIS AND REACTIONS): A REVIEW PART I

Article 5, Volume 53, Issue 1 - Serial Number 53, March 2016, Page 108-122  XML PDF (731.23 K)
Document Type: Original Article
DOI: 10.21608/ajps.2016.6890
Author
Menshawy . Mohamed
Department of Pharmaceutical Chemistry, College of Pharmacy, Prince Sattam Bin Abdulaziz University, P.O. Box- 173, Al-Kharj 11942, Saudi Arabia. /bDepartment of Organic Chemistry, Faculty of Pharmacy, Al-Azhar University, Cairo, Egypt
Abstract
Sonochemistry is a powerful and green approach which is being used to accelerate synthesis of organic compounds, and involves the use of ultrasound technique to promote chemical reactions. Ultrasound is the part of the sonic spectrum, which ranges from about 20 KHz to 10 MHz. A large number of organic reactions can be carried out under ultrasonic irradiation in high yields, short reaction times, and mild conditions. Ultrasonic irradiation of liquids causes high energy chemical reactions to occur, often with the emission of light. The origin of sonochemistry and sonoluminescence is acoustic cavitation which is  the formation, growth, and implosive collapse of bubbles. The collapse of bubbles caused by cavitation produces intense local heating and high pressures, with very short lifetimes (Hot spots). These hot-spots have an equivalent temperatures of roughly 5,000 K, pressures of about 1,000 atm, and increase reactivity by nearly million-fold using the radical mechanism. A variety of devices have been used for ultrasonic irradiation of solutions. 
Keywords
Acoustic cavitation; Ultrasound; sonoluminescence; name reactions
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