2015

"This paper analyzes the presence of ClO_2 and carbonate-presenter in the so-called "stable chlorine dioxide" solution prepared with stabilizer H_2O_2 and Na_2CO_3 and ClO_2, and compares the thermal stability, acid activation factors and sterilization effects of "stable chlorine dioxide" with pure NaClO_2 and ClO_2. The results showed that the ClO_2 in the solution of "stable chlorine dioxide" existed in chlorate ClO_2-type and carbonate in bicarbonate. It is also proved by theoretical analysis that the oxidation reduction and proton transfer reaction occurred between the ClO_2 and the H_2O_2 and the Na_2CO_3 during the preparation of the "stable chlorine dioxide" solution, which produced the chlorate ClO_2 -and bicarbonate HCO_3--- and released O_2. Therefore, the "stable dioxy-to-chlorine" solution is considered to be Cl"

1996

1998 "the results of the mutagenic comparison between chlorine dioxide and liquid chlorine disinfection water samples show that the water samples ClO_2 disinfection do not show mutation, while the wood samples of liquid chlorine disinfection show mutation"

2017. "In recent years, chlorine dioxide gas is directly dissolved in water, through the addition of stabilizers to become a direct use of products without activation, although the removal of the risk of insecurity, but also brought convenience to use, but the addition of stabilizers, reduce the purity of the solution, restricting the use of products in higher-end areas. The use of nanospheres directly to the absorption of chlorine dioxide gas, through control and then release, not only without any additives and activation, but also small size and large capacity, easy to use."

2012

2020. {Testing of various formulations on various organisms} "average concentration of chlorine dioxide in the high and low test groups was 224.1 mg/L and 75.2 mg/L, respectively. There was no significant difference between the average concentration of the high and low concentration groups and their theoretical concentrations, and the results of the chlorine dioxide content determinations were consistent with their theoretical concentrations. The average of the 5 measurement concentrations of the combined sodium chlorate powder dissolver in the control group was in the theoretical concentration (380 to 460 mg/L). Therefore, the improved five-step iodine measurement results are accurate, and the method can be used as an effective detection method for chlorine dioxide disinfectant products. The results of the qualitative quantitative killing test of chlorine dioxide solution on four bacteria showed that when the effective concentration of chlorine dioxide solution was 3.12 mg/L, it had a 1 min effect on E. coli 8099, and the kill rate was 99.90 %, 10 min for Staphylococcus aureus ATCC6538, the killing rate reached 99.97 percent, the effect on type B hemolytic streptococcus 32210 30 min, the killing rate reached 100%; The effective concentration was 12.5 mg/L, which was 10 min for bacillus 63501, and the kill rate was 100%. Chlorine dioxide solution sterilization effect is good, and with the compound sodium chlorate powder sterilization effect is similar, and the sterilization effect is much better than ammonium methyl bromide solution. The results of the killing test of chlorine dioxide solution on swine fever virus showed that chlorine dioxide solution and compound sodium chlorate powder dissolver with concentration of 25 mg/L were able to achieve 100% inactivation rate when the Thiveral strain of swine fever virus was 3 min, indicating that the chlorine dioxide solution had good effect on swine plague virus eradication and similar effect to the pig plague virus."

缓释型 二氧化氯膜 包合物 动力学模型

" 1) The development of solid-load chlorine dioxide products to a water-to-toluene sulfonate as a solid acid, diatom soil as an passivator, waterless sodium sulfate as a moisture absorbent, the application of sodium chlorate and solid acid water to toluene sulfonate reaction to produce the principle of chlorine dioxide gas, to make a reactive solid-load chlorine dioxide powder. Through the single-factor test, the effect of the amount of solid acid water on the soil of toluene sulfonate and passivator diatom was studied on the release volume and velocity of chlorine dioxide gas. The results showed that sodium chlorate: diatom soil: waterless sodium sulfate: one water to toluene sulfonate , 1:3:1:3 ratio is the most suitable. Taking sodium chlorate 1.00g, diatom soil 3.00g, waterless sodium sulfate 1.00g, and one water toluene 3.00g, for example, the release time can reach more than 10h, the release amount can reach 367.69mg. The preparation process of this solid-load chlorine dioxide product is simple, safe and effective, suitable for food storage and transportation,"

****!!!!**** 2010. "This paper introduces the application examples of the non-activated Chijie chlorine dioxide disinfectants and other products of Shenzhen Roach Environmental Protection Company during the Wenchuan earthquake at Shenyang Military District Field Hospital and the first hospital affiliated with Fujian Medical University during influenza A(H1N1)."

****!!!!*** {from Chinese database} "its sterilization mechanism is still not clear. The purpose of this paper is to study the inhibition of chlorine dioxide to the respiratory function of white Candida and its correspondence with the sterilization effect. Methods: Ultra-microstructure observation, flow cytometer detection, oxygen consumption determination and flat plate culture. Results Chlorine dioxide has no obvious damage effect on the structure and shape of the mitochondria of white candida, but the cross-membrane potential of mitochondria will gradually collapse with the increase of chlorine dioxide dose. The inhibition degree of aerobic breathing was positively correlated with the mortality rate of the bacteria, but not equal, and the inhibition rate of breathing under various acting conditions was always significantly lower than that of the bacteria. There was no significant difference in mortality detected by anaerobic culture and aerobic culture after chlorine dioxide. Conclusion: The experimental results show that chlorine dioxide has obvious damage effect on the organelles of eclectic cells and is positively correlated with mortality, but respiratory suppression may not be the primary cause of bacterial death."

****!!!!!**** {from Chinese database} "the application examples of the non-activated Chijie chlorine dioxide disinfectants and other products of Shenzhen Roach Environmental Protection Company during the Wenchuan earthquake at Shenyang Military District Field Hospital and the first hospital affiliated with Fujian Medical University during influenza A(H1N1)."

"Chlorination is a widespread fouling control practice in water intake structures of power plants and desalination plants. Chlorine dioxide is used... "

PDF | Reaction of styrene with chlorine dioxide under various conditions selectively produces 1-phenyl- 2-chloroethanone, with 1-phenyl-2-chloroethanol,... | Find, read and cite all the research you need on ResearchGate

2021

****!!!!!*** 2020. "The potential role of ClO2 in completely inactivating porcine reproductive and respiratory syndrome virus (PRRSV) was demonstrated through the action of degrading the genome and proteins of the virus [4]. This study also confrmed that the expression of inflammatory cytokines induced by this virus can be reduced by ClO2. This is further supported bystudies reporting protein-denaturing activities due to covalent oxidative modifcation of cysteine, tryptophan and tyrosine residues of model proteins (bovine serum albumin and G6PD of Saccharomyces cerevisiae) as the mechanism behind the efficacy of ClO2 against microbes [13,14]. Furthermore, 0.03 ppm of ClO2 has been indicated to prevent aerosol-induced infuenza A virus by denaturing the envelope proteins of the virus [12]. The mechanism of norovirus inactivation by ClO2 is attained through degradation of viral protein, including viral genomic RNA and disruption of viral strucutre [15]. In addition, an observation on ClO2-reduced lysozyme activities showed the potential role of ClO2 in denaturation and degradation of protein "

****!!!!*** {Illustrations, etc at bottom of this page. Also, cited excerpts available at https://www.researchgate.net/publication/6766479_Kinetics_and_Mechanisms_of_Chlorine_Dioxide_and_Chlorite_Oxidations_of_Cysteine_and_Glutathione." "Chlorine dioxide oxidation of cysteine (CSH) is investigated under pseudo-first-order conditions (with excess CSH) in buffered aqueous solutions, p[H+] 2.7−9.5 at 25.0 °C. The rates of chlorine dioxide decay are first order in both ClO2 and CSH concentrations and increase rapidly as the pH increases. The proposed mechanism is an electron transfer from CS- to ClO2 (1.03 × 108 M-1 s-1) with a subsequent rapid reaction of the CS• radical and a second ClO2 to form a cysteinyl−ClO2 adduct (CSOClO). This highly reactive adduct decays via two pathways. In acidic solutions, it hydrolyzes to give CSO2H (sulfinic acid) and HOCl, which in turn rapidly react to form CSO3H (cysteic acid) and Cl-. As the pH increases, the (CSOClO) adduct reacts with CS- by a second pathway to form cystine (CSSC) and chlorite ion (ClO2-). The reaction stoichiometry changes from 6 ClO2:5 CSH at low pH to 2 ClO2:10 CSH at high pH. The ClO2 oxidation of glutathione anion (GS-) is also rapid with a second-order rate constant of 1.40 × 108 M-1 s-1. The reaction of ClO2 with CSSC is 7 orders of magnitude slower than the corresponding reaction with cysteinyl anion (CS-) at pH 6.7. Chlorite ion reacts with CSH; however, at p[H+] 6.7, the observed rate of this reaction is slower than the ClO2/CSH reaction by 6 orders of magnitude. Chlorite ion oxidizes CSH while being reduced to HOCl, which in turn reacts rapidly with CSH to form Cl-. The reaction products are CSSC and CSO3H with a pH-dependent distribution similar to the ClO2/CSH system."

****!!!!!***** Chlorine dioxide (ClO2), an alternative disinfectant to chlorine, has been widely applied in water and wastewater disinfection. This paper aims at presenting an overview of the inactivation kinetics and mechanisms of ClO2 with viruses. The inactivation efficiencies vary greatly among different virus species. The inactivation rates for different serotypes within a family of viruses can differ by over 284%. Generally, to achieve a 4-log removal, the exposure doses, also being referred to as Ct values (mutiplying the concentration of ClO2 and contact time) vary in the range of 0.06–10 mg L−1 min. Inactivation kinetics of viruses show two phases: an initial rapid inactivation phase followed by a tailing phase. Inactivation rates of viruses increase as pH or temperature increases, but show different trends with increasing concentrations of dissolved organic matter (DOM). Both damages in viral proteins and in the 5′ noncoding region within the genome contribute to virus inactivation upon ClO2 disinfection.

*** {Excellent info on Chlorine dioxide characteristics} Pros and Cons of Chlorine Dioxide Pros and Cons of Chlorine Dioxide Advantages: ~Effective for bacteria, viruses, fungi, algae, biofilm etc. ~Very fast acting ~Breaks down rapidly ~No AOX formation ~Not pH dependent ~No reaction with ammonia ~Effective at < 1 ppm concentrations Disadvantages: ~Volatile ~On-site generation required ~Complicated methods of generation

Upcoming webinars discussing chlorine dioxide gas decontamination and ultraviolet light disinfection.

*** {Illustration of chemical dynamics with oxidation. May contain some inaccuracies.}

*** {Excellent Powerpoint presentation about chlorine dioxide, building decontamination, etc}

Introductions Walter Weterman – Director of International Sales Rich Hopkins – Hopkins Technical Products Fred Bender – Hopkins Technical Products Greg Cozzi – Hopkins Technical Products Jeff Drappo – Regional Manager PFC Janet Berbach – Director of Corporate Events Ken Gibson – Director of Business Development

{chart with disadvantages of other ClO2 generation methods, and of tech-grade sodium chlorite} "The single precursor eChem Chlorine Dioxide generation process electrolytically converts Sodium Chlorite to Chlorine Dioxide gas in the patented OxiMax CDE cell. This gas is then stripped from the solution in the patented vClone and then dissolved in water to be stored in the Solution Tank at a level of up to 2,000 ppm. Recirculation of solutions optimises efficiency and minimises power consumption to allow outstanding performance from a compact machine. The process is safe, reliable and is controlled by a microprocessor, which continuously monitors the performance of the machine, makes the appropriate decisions and displays the status via the LEDs and on an LCD screen."

{Chart with concentrations of Chlorite and HCl that can be used with some equipment in generating Chlorine Dioxide for specific applications/uses} {Summaries of ClO2 uses in wide variety of industries}

**** {Includes helpful illustration} "Chlorine dioxide's behaviour as an oxidising agent is quite dissimilar. Like ozone, the predominant oxidation reaction mechanism for chlorine dioxide proceeds through a process known as free radical electrophilic (i.e. electron-attracting) abstraction rather than by oxidative substitution or addition (as in chlorinating agents such as chlorine or hypochlorite). This means that chlorinated organic compounds such as THMs and HAAs are not produced as a result of disinfection using chlorine dioxide"

{bleaching}

***** {pKa} "many compounds used for medication are weak acids or bases, and a knowledge of the pKa values, together with the octanol-water partition coefficient, can be used for estimating the extent to which the compound enters the blood stream. Acid dissociation constants are also essential in aquatic chemistry and chemical oceanography, where the acidity of water plays a fundamental role. In living organisms, acid–base homeostasis and enzyme kinetics are dependent on the pKa values of the many acids and bases present in the cell and in the body. In chemistry, a knowledge of pKa values is necessary for the preparation of buffer solutions and is also a prerequisite for a quantitative understanding of the interaction between acids or bases and metal ions to form complexes."

"At or below MFC, ClO2 damages the plasma membranes of C. albicans mainly by permeabilization, rather than by the disruption of their integrity. K+leakage and the concomitant depolarization of the cell membrane are some of the critical events."