Sonochemical degradation of chlorophenols in water

Abstract: Sonochemical degradation of dilute aqueous solutions of 2-, 3- and 4-chlorophenol and pentachlorophenol has been investigated under air or argon atmosphere. The degradation follows first-order kinetics in the initial state with rates in the range 4.5-6.6 microM min-1 under air and 6.0-7.2 microM min-1 under argon at a concentration of 100 microM of chlorophenols. The rate of OH radical formation from water is 19.8 microM min-1 under argon and 14.7 microM min-1 under air in the same sonolysis conditions. The so… Show more

“…Thus, the growth environment of chicken eggs imposes a strong selective pressure on influenza B virus toward losing the glycans at residue 194, with concomitant enhanced affinity for ␣(2,3)-linked sialic acids (40). Interestingly, the gain or loss of a glycosylation site at residue 194 seems to be an effective tool used by naturally occurring influenza B virus to modify its antigenicity (55,56). Similar strategy was also found by egg-adapted influenza A virus (2,40).…”

Structural basis for receptor specificity of influenza B virus hemagglutinin

“…Thus, the growth environment of chicken eggs imposes a strong selective pressure on influenza B virus toward losing the glycans at residue 194, with concomitant enhanced affinity for ␣(2,3)-linked sialic acids (40). Interestingly, the gain or loss of a glycosylation site at residue 194 seems to be an effective tool used by naturally occurring influenza B virus to modify its antigenicity (55,56). Similar strategy was also found by egg-adapted influenza A virus (2,40).…”

Structural basis for receptor specificity of influenza B virus hemagglutinin

“…Over the past two decades, sonochemical degradation of organic pollutants in water has been extensively investigated [9][10][11][12][13]. Ultrasonic irradiation provides a way of onsite ·OH generation.…”

Ultrasonic cavitation induced degradation of Congo red in aqueous solutions

“…The chemical effects of high-intensity ultrasound result primarily from acoustic cavitation: the formation, growth, and implosive collapse of bubbles in liquids [15]. Acoustic cavitation generates sites of locally high temperatures and pressures for short period of time, which give rise to the H 2 O sonolysis with production of radical species (H • , • OH, HOO • ) and direct destruction of solute [9,16,17]. However, little information is available on heterogeneous sonochemical degradation of organic pollutants.…”

Degradation of azo dye acid red B on manganese dioxide in the absence and presence of ultrasonic irradiation