Determination of inorganic chlorine compounds and total chlorine in spent bleaching liquors. 2. spectrophotometric methods for chlorine dioxide and chlorine
Chlorine dioxide reaction with selected amino acids in water - PubMed
"The reaction of tryptophane, histidine and tyrosine (10 ppm each) with ClO(2) were studied at molar ratios ranging from 0.25 to 4 in the presence or absence of oxygen. It was found that in the absence of oxygen adding substoichiometric amounts of ClO(2) creates products that are structurally similar to the starting amino acids. Through a series of cascade reactions the initial product distribution gradually evolves toward simple, small carbon chain products that are far from the starting amino acid. The reaction product distribution revealed that chlorine dioxide can attack the electron-rich aromatic moieties as well as the nitrogen atom lone electron pair"
The reactions of chlorine dioxide with inorganic and organic compounds in water treatment: kinetics and mechanisms - Environmental Science: Water Research & Technology (RSC Publishing)
Chlorine Dioxide: the practical choice for water treatment in the UK
**** "The microorganisms in biofilms include disease-causing pathogens such as E.coli, Salmonella, Campylobacter and Listeria so it’s important to prevent their development and stop the spread of any spores. The microorganisms cluster together and secrete a protective polysaccharide “glue” that helps them to resist outside elements. Chlorine dioxide penetrates this slimy outer layer by breaking down the inert sugars. Unlike other biocides, chlorine dioxide then continues reacting with the proteins that the microorganisms are built from, disrupting cell function and preventing them from reproducing. Chlorine dioxide is particularly effective at preventing the build-up of Legionella, Giardia Lambia and Cryptosporidium oocysts in public drinking water supplies."
Description: THE EFFECTS OF 1‰ STABILIZED LIQUID SOLUTION OF CHLORINE DIOXIDE (ClO2) ON SOME FOOD-BORN BACTERIA
"application of 1‰ solution of stabilized liquid chlorine dioxide on some food-born related bacteria - E. coli, Staphylococcus aureus, S. Enteritidis and C. jejuni."
****!!!!**** "the reaction between the ferrous ion and chlorite is very fast (5–15 s) over a range of pH 6.5–8.0; in this condition a ferrous ion dose of 3.31 mg Fe/mg ClO2 completely reduced chlorite to chloride, producing minimal
residual soluble iron. For pH higher than 8.0–8.5, chlorite removal is lower due to the natural transformation of the ferrou ions to ferric hydroxide. Within these pH values, chlorite can be removed completely with ferrous ion
concentrations higher than the stoichiometric value. Moreover, the application of ferrous salts for chlorite removal during the coagulation process enhances the performance of the coagulation and flocculation treatment"
A multilevel antimicrobial coating based on polymer-encapsulated ClO(2) - PubMed
A multilevel antimicrobial coating with "release-killing", "contact-killing" and "anti-adhesion" properties was prepared from polymer-encapsulated chlorine dioxide (ClO(2)), water-in-oil-in-water (w/o/w) double emulsion. A slow sustained release of gaseous ClO(2) at a rate sufficient to inhibit bact …
Production and stability of chlorine dioxide in organic acid solutions as affected by pH, type of acid, and concentration of sodium chlorite, and its effectiveness in inactivating Bacillus cereus spores
****!!!!****!!!!**!!!** "The amount of ClO(2) produced was higher as the concentration of sodium chlorite was increased and as the pH of the acid solutions was decreased. However, the stability in production of ClO(2) was enhanced by increasing the pH of the organic acid solutions." "Rates of inactivation tended to increase with higher pH of ClO(2) solutions. Results show that ClO(2) formed in organic acid solutions has higher stability and is more lethal to B. cereus spores than ClO(2) formed at the same concentration in HCl solution. This finding emphasizes the benefits of using organic acid solutions to prepare ClO(2) intended for use as an antimicrobial."
Lethality of chlorine, chlorine dioxide, and a commercial fruit and vegetable sanitizer to vegetative cells and spores of Bacillus cereus and spores of Bacillus thuringiensis - PubMed
[Combinations affected lethality in presence of other materials.] Chlorine, ClO2, and a commercial raw fruit and vegetable sanitizer were evaluated for their effectiveness in killing vegetative cells and spores of Bacillus cereus and spores of Bacillus thuringiensis. The ultimate goal was to use one or both species as a potential surrogate(s) for Bacillus anthraci …
Oxyhalogen-sulfur chemistry: kinetics and mechanism of oxidation of N-acetylthiourea by chlorite and chlorine dioxide - PubMed
The oxidation reactions of N-acetylthiourea (ACTU) by chlorite and chlorine dioxide were studied in slightly acidic media. The ACTU-ClO(2)(-) reaction has a complex dependence on acid with acid catalysis in pH > 2 followed by acid retardation in higher acid conditions. In excess chlorite conditio …
Use of α-cyclodextrin t clodextrin to Promote Clean and Envir omote Clean and Environmentally onmentally Friendly Disinfection of Phenolic Substrates via Chlorine Dioxide Treatment
"The use of supramolecular constructs and/or adducts of chlorine dioxide as strategies for mitigating chlorine dioxide-induced water treatment toxicity has not been reported to date, despite the fact that chlorine dioxide is known to form a variety of supramolecular adducts (Loginova et al., 2011;Palcso et al., 2019), including with α-cyclodextrin (Wambaugh et al., 2013)"
ANTIMICROBIAL EFFECT OF SLOW RELEASE CHLORINE DIOXIDE DISINFECTANT, IN COMPARISON WITH SODIUM DICHLOROISOCYANURATE
"This study assessed the antimicrobial properties of Aseptrol® (48 ppm and 24 ppm)" "Both disinfectants killed more susceptible bacteria, such as Staphylococcus aureus, Pseudomonas. aeruginosa and Streptococcus mutans within 30 seconds and proved to be fungicidal by killing Candida albicans within 30 seconds.Aseptrol® and Presept® killed less susceptible mycobacteria such as Mycobacterium tuberculosis, Mycobacterium avium subsp. avium and blood borne organism Hepatitis B virus within 30 seconds. Highly resistant B. subtilis spores were killed in 2 and 2.5 minutes by Aseptrol® and Presept® respectively." "Although manufacturers recommend that the disinfectant solutions should be prepared daily, when the shelf-life of prepared solutions stored in screw cap bottles was studied, the results showed that Aseptrol® can be effectively used for 27 day" "nosocomial infections"
Efficacy of Chlorine Dioxide Gas Against Hepatitis A Virus on Blueberries, Blackberries, Raspberries, and Strawberries - PubMed
Seeking a means of sanitizing berries, the effectiveness of steady state levels of gaseous chlorine dioxide against hepatitis A virus (HAV) on laboratory-contaminated berries was determined. The generated ClO2 was maintained with 1 or 2 mg/l air inside a 269-l glove box …
Evaluation of Steady-State Gaseous Chlorine Dioxide Treatment for the Inactivation of Tulane virus on Berry Fruits - PubMed
The effectiveness of steady-state levels of gaseous chlorine dioxide against Tulane virus (TV), a human norovirus surrogate, on berries was determined. The generated ClO2 was maintained at 1 mg/L inside a 269 L glove box to treat two 50 g batches of blueberries, raspberr …
Mechanisms of Escherichia coli inactivation by several disinfectants. - Abstract - Europe PMC
"cell surface damage was more pronounced with strong oxidant such as ozone while damage in inner cell components was more apparent with weaker oxidant such as free chlorine. Chlorine dioxide showed the inactivation mechanism between these two disinfectants. The results suggest that the mechanism of cell inactivation is primarily related to the reactivity of chemical disinfectant."
Evaluation of ultrasonic scaling unit waterline contamination after use of chlorine dioxide mouthrinse lavage - PubMed
Phosphate-buffered chlorine dioxide mouthrinse was effective in these short-term trials for control of waterline contamination in ultrasonic dental scaling units. It should prove as useful in dental professional waterline applications as it has in industrial uses for biofilm control.
Reactivity of natural organic matter fractions with chlorine dioxide and ozone - ScienceDirect
"The main purpose of this paper was to compare the reactivity of individual NOM fractions with oxidants in order to compare the productivity of biodegradable by-products after oxidation with chlorine dioxide and ozone. The quantity as well as the quality of by-products were analysed"
THE EVALUATION OF THE POTENTIAL FOR CHLORINE DIOXIDE TO PRIME PLANT DEFENSES FOR A SYSTEMIC ACQUIRED RESISTANCE IN LIGHT RED KIDNEY BEAN PLANTS INOCULATED WITH COMMON BEAN BACTERIAL WILT
CHEMICAL DATA NOTEBOOK SERIES #106: CHLORINE DIOXIDE | Fire Engineering
Chlorine dioxide is an oxidizing, unstable, reactive, toxic, irritating, yellowish-to-reddish gas with a pungent odor resembling chlorine or nitric acid. The U.S. Department of Transportation (DOT) forbids the transport of pure chlorine dioxide, which normally is diluted to less than 10 percent in a cold solution and shipped as a hydrate in its frozen form resembling orange-colored ice. It is used as a bleaching agent for beeswax, fats, flour, leather, oils, textiles, and wood pulp; in water-tr
Natick plays key role in helping to fight spread of Ebola
Researchers at the U.S. Army Natick Soldier Research, Development and Engineering Center invented a next-generation disinfectant system that kills the Ebola virus on surfaces.