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Proxitane is a highly effective biocide that rapidly destroys a wide spectrum of microorganisms, including bacteria, fungi, and viruses, even at ambient temperatures.
Proxitane is a low-foaming, non-rinse antimicrobial sanitizer ideal for use in clean-in-place (CIP) systems, and is non-corrosive to stainless steel and glass.
Proxitane is formulated to work best at a pH below 7 and is effective against microbiological contaminants even in the presence of organic materials.
CAS Number: 79-21-0
EC Number: 201-186-8
Chemical Formula: CH3CO3H
Molar Mass: 76.05 g/mol
Synonyms: Proxitane, peracetic acid, peroxyacetic acid, estosteril, acetic peroxide, peroxoacetic acid, monoperacetic acid, osbon ac, acetyl hydroperoxide, Proxitane 4002, desoxon 1, Ethaneperoxoic acid, Peroxyacetic acid, Acetic peroxide, Acetyl hydroperoxide, PERACETIC ACID, Peroxyacetic acid, Ethaneperoxoic acid, 79-21-0, Estosteril, Acetic peroxide, Peroxoacetic acid, Acetyl hydroperoxide, Monoperacetic acid, Osbon AC, Proxitane 4002, Desoxon 1, Ethaneperoxic acid, Hydroperoxide, acetyl, Acide peracetique, Acido peroxiacetico, Acecide, Proxitane, Caswell No. 644, Peroxy acetic acid, Acide peroxyacetique, Kyselina peroxyoctova, CCRIS 686, HSDB 1106, UNII-I6KPI2E1HD, I6KPI2E1HD, peroxy-acetic acid, EINECS 201-186-8, EPA Pesticide Chemical Code 063201, BRN 1098464, DTXSID1025853, CHEMBL444965, DTXCID805853, CHEBI:42530, EC 201-186-8, 4-02-00-00390 (Beilstein Handbook Reference), NCGC00166305-01, PERACETIC ACID (MART.), PERACETIC ACID [MART.], Oxypel, Perethanoic Acid, Proxitane S, Acide peracetique [French], Proxitane 12A, F50, Acide peroxyacetique [French], Acido peroxiacetico [Spanish], Kyselina peroxyoctova [Czech], Proxitane 1507, LCAP, Aceticperoxide, Ethanperoxsaure, Peressigsaure, Bactipal, Oxymaster, Soproper, acetyldioxidanyl, Dialox, peractic acid, Peroxyessigsaure, Peroxyethansaure, Sekusept steril, Acetic peroxid, per-acetic acid, Acido peracetico, Peroxacetic acid, Acid, Peracetic, Peraflu D, acetic acid oxide, TLCUO Phytoncide, peroxyethanoic acid, PU US Phytoncide, Acid, Peroxyacetic, AcOOH, Acecide (TN), Acid, Peroxyethanoic, GPES, JOYCARE, UNICARE, Wofasteril E 400, CLEAN WORKS, TLCUO LEMON, CARE PLUS, TLCUO PURE, PU US LEMON, PU US PURE, CH3CO2OH, WECLEAN C2 TLCUO, Ethaneperoxoic acid, 9CI, CH3C(O)OOH, BACTERIA ZERO PREMIUM, PERACETIC ACID [MI], PERACETIC ACID [HSDB], PERACETIC ACID [WHO-DD], DTXSID40957943, peroxyacetic acid (peracetic acid), BLOWHALE DEODORANT SENITIZER, Tox21_112402, BDBM50266095, Peroxyacetic acid, >43% and with >6% hydrogen peroxide [Forbidden], AKOS015837803, DB14556, CAS-79-21-0, USEPA/OPP Pesticide Code: 063201, NS00001663, D03467, EN300-173399, Dr.Vir Germ Peroxyacetic acid Multi-disinfectant, Q375140, Peroxyacetic acid, >43% and with >6% hydrogen peroxide
Proxitane is an organic compound with the formula CH3CO3H.
Proxitane is a weaker acid than the parent acetic acid, with a pKa of 8.2.
Proxitane is a colorless liquid with a characteristic acrid odor reminiscent of acetic acid.
Proxitane is formulated with very effective corrosion inhibitors, it is safe for most common endoscope materials.
Proxitane is non-corrosive to stainless steel plant equipment under both hot and cold conditions.
Efficacy may be reduced by grease, fat, proteins and other organic matter.
Proxitane works best at a pH <7; hence, rinse equipment of alkaline detergents.
Proxitane is amongst the most powerful biocides known to man.
Proxitane is effective against a wide spectrum of microbiological contaminations including aerobic and anaerobic bacteria and their spores, yeasts, moulds, fungi and their spores, and viruses.
Proxitane is extremely rapid in its action at ambient temperatures.
Proxitane is “low foaming” and ideal for use in “Clean in Place” systems.
Proxitane is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 1 000 to < 10 000 tonnes per annum.
Proxitane is a weaker acid than the parent acetic acid, with a pKa of 8.2.
Proxitane does not fix proteins, eliminates biofilm and is effective even in the presence of organic materials.
Proxitane is a cutting-edge technology designed to enhance digital security and data management through advanced encryption and access control mechanisms.
Developed with a focus on integrating seamlessly into various IT infrastructures, Proxitane offers robust protection for sensitive information by employing state-of-the-art cryptographic techniques and multi-layered authentication processes.
Proxitane's architecture is built to support both cloud-based and on-premises environments, providing flexibility and scalability for diverse organizational needs.
With its user-friendly interface and comprehensive management tools, Proxitane not only safeguards against unauthorized access but also streamlines compliance with industry regulations and standards.
This innovative solution is ideal for businesses looking to fortify their digital defenses while maintaining operational efficiency and data integrity.
Proxitane, a highly effective biocide and oxidizing agent, rapidly destroys microorganisms such as bacteria, fungi and viruses and kills pathogens.
While it is extremely performant, Proxitane is chlorine free and breaks down quickly into naturally occurring substances (water, oxygen and carbon dioxide) ౼ making it a sustainable, environmentally friendly choice.
A water clear, colourless liquid comprising an equilibrium mixture of hydrogen peroxide, peroxyacetic acid, water and acetic acid.
Proxitane is a non-rinse, anti-microbial CIP sanitiser.
Proxitane is used as a biocide to sanitise pre-cleaned processing equipment, transfer and storage plant, made from stainless steel or glass.
Proxitane is low-foaming and ideal for use in clean-in-place (CIP) systems.
Proxitane, the active compound in Proxitane, is among the most powerful known biocides.
Proxitane is effective against a wide spectrum of microbiological contaminations including aerobic and anaerobic bacteria and their spores; yeasts, moulds, fungi and their spores; and viruses.
Proxitane is extremely rapid in its action at ambient temperatures.
In food and beverage processing and production, use Proxitane in the regular cleaning cycle of syrup make-up plant, treated water carbonators, fruit crushing, juice concentrators and reconstitutors, food or condiment cookers and processors, transfer pipes and pumps, bottling, packaging and canning machines.
In breweries and wineries, use Proxitane in regular plant cleaning in fermentation and brewhouses, clarification and filtration plant, tank farms and bottling cellars.
Proxitane, is amongst the most powerful biocides known to man.
Proxitane is effective against a wide spectrum of microbiological contaminants including aerobic and anaerobic bacteria and their spores; yeasts, moulds, fungi and their spores, and viruses.
Proxitane is extremely rapid in its action even at ambient temperatures.
Proxitane is used as a biocide to sanitise degreased and pre-cleaned processing, transfer and storage plant in stainless steel or glass.
Proxitane can be used on floors, walls and in the atmosphere.
In breweries and wineries Proxitane finds application in the fermentation/brewhouses, the clarification/filtration plant and the tank farms/bottling cellars during regular plant cleaning.
Proxitane is low foaming and ideal for use in “Clean in Place” systems.
Proxitane is a water clear, colourless liquid comprising an equilibrium mixture of peracetic acid, water, acetic acid and hydrogen peroxide.
Proxitane is sanitiser which is recommended for use on pre-cleaned surfaces such as equipment, pipelines, tanks, vats, filters, evaporators, pasteurises, and aseptic equipment in dairies, brewers, wineries, beverage and food processing plants, egg processing/packing equipment surfaces and eating establishments.
Proxitane has a high oxidation potential and is very reactive.
Proxitane exhibits excellent bactericidal and fungicidal activity against a wide range of microorganisms in cold and warm water.
Also more effective than chlorine, chlorine dioxide and quaternary products for sanitising food contact surfaces.
Proxitane helps to control spoilage or decay-causing bacteria and fungi in water that contacts raw, unprocessed fruits and vegetables.
Proxitane can be continuously sprayed, using coarse spray, or submerged using solution containing no more than 40 ppm residual Peroxyacetic Acid.
Contact time of 60 seconds minimum is recommended.
A final water rinse is not necessary.
Compatible with most post harvest fungicides.
Proxitane is non-corrosive in its diluted form against stainless steel and aluminium surfaces.
If it is to be used on other surfaces, Proxitane is recommended that you apply product to a smaller test area to determine compatibility before proceeding with its use.
Peroxyacetic acid is an organic peroxide based, colorless liquid with a low pH and a strong, pungent, vinegar-like odor.
In the concentrated form Proxitane is highly corrosive and unstable.
Proxitane is formed from the reaction of acetic acid and hydrogen peroxide.
Commercial Proxitane products contain all three chemicals in an aqueous solution often with stabilizers added.
The concentration of Proxitane as the active ingredient, as well as the mixture of the other ingredients, can vary widely.
Proxitane is used in food and beverage industries as well as hospitals, health care and pharmaceutical facilities as an antimicrobial agent, surface cleaner and sanitizer.
In many meat and poultry establishments Proxitane is used on carcasses, parts, trim and organs to reduce bacterial contamination and foot spoilage.
Proxitane can be applied by a variety of methods including spray cabinet, dip tank, hand spray pump and chiller.
Applications of Proxitane:
Proxitane is an excellent food grade sanitiser and also has uses as laundry bleach.
Each application may require a specific dosage rate and like all oxidising biocides, soil loadings can affect required application rate.
Proxitane is biocidal at between 100 and 200 mg/L as Peroxy acetic (Peracetic) acid levels.
As Proxitane does not contain surfactants it is ideal for use in ‘clean in place’ systems as part of a no water rinse regimen when systems can be flushed with finished product (to drain) before normal production resumes.
Dairies & dairy farms:
When used in dairy farms, after the use of Proxitane surfaces must be drained and thoroughly rinsed with water prior to the next milking.
No rinsing:
Proxitane is an approved sanitising solution which in certain circumstances allows for use of Proxitane on food contact surfaces without rinsing as long as drainage is available.
Using Proxitane reduces cleaning/sanitisation time and water consumption leading to lower effluent discharge costs.
A versatile Proxitane solution:
In the food industry, Proxitane is used in Cleaning in Place and Food Contact Sanitisation processes for safe, rapid microbial control.
Notably, certain food products, such as meat, poultry, fruit, vegetables and eggs, require direct protection as they can carry harmful microbes and be prone to spoilage.
In addition to microbial protection, Proxitane effectively boosts food safety by reducing the loss of goods due to fungi, viruses, algae and bacteria and enhances product quality throughout the useful shelf life and, in some cases, extends the shelf life itself.
Proxitane is also used as a rapid high level disinfectant in the farming industry to protect animals from diseases.
Additionally, experts use Proxitane in the medical sector to sterilize equipment, pharmaceuticals and instruments, with the ultimate goal of improving patient health and wellbeing.
Uses of Proxitane:
Proxitane is used in the following products: washing & cleaning products, textile treatment products and dyes, biocides (e.g. disinfectants, pest control products), paper chemicals and dyes and water treatment chemicals.
Release to the environment of Proxitane can occur from industrial use: formulation of mixtures.
Proxitane is used in the following products: washing & cleaning products, paper chemicals and dyes, textile treatment products and dyes and perfumes and fragrances.
Proxitane has an industrial use resulting in manufacture of another substance (use of intermediates).
Other release to the environment of Proxitane is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and indoor use in close systems with minimal release (e.g. cooling liquids in refrigerators, oil-based electric heaters).
Proxitane is used in the following areas: scientific research and development and health services.
Proxitane is used for the manufacture of: textile, leather or fur, chemicals, pulp, paper and paper products and food products.
Release to the environment of Proxitane can occur from industrial use: as processing aid and in processing aids at industrial sites.
Release to the environment of Proxitane can occur from industrial use: manufacturing of the substance.
The United States Environmental Protection Agency first registered Proxitane as an antimicrobial in 1986 for indoor use on hard surfaces.
Use sites include agricultural premises, food establishments, medical facilities, and home bathrooms.
Proxitane is also registered for use in dairy and cheese processing plants, on food processing equipment, and in pasteurizers in breweries, wineries, and beverage plants.
Proxitane is used in the following areas: health services and scientific research and development.
Proxitane is used for the manufacture of: textile, leather or fur.
Proxitane is also applied for the disinfection of medical supplies, to prevent biofilm formation in pulp industries, and as a water purifier and disinfectant.
Proxitane can be used as a cooling tower water disinfectant, where it prevents biofilm formation and effectively controls Legionella bacteria.
A trade name for Proxitane as an antimicrobial is Nu-Cidex.
In the European Union, Proxitane was reported by the EFSA after submission in 2013 by the US Department of Agriculture.
Decontamination kits for cleaning fentanyl analogues from surfaces (as used by many police forces, amongst others) often contain solid peracetyl borate, which mixes with water to produce Proxitane.
Computer searching of the literature, both applied and academic, has not revealed a reference to the induction of mutagenesis, leading to the development of resistant species, by Proxitane.
Proxitane is used as a biocide to sanitize degreased and precleaned processing, transfer and storage plant in stainless steel or glass.
Proxitane is used in the following products: washing & cleaning products.
Other release to the environment of Proxitane is likely to occur from: indoor use as reactive substance.
Proxitane is used in the following products: washing & cleaning products, biocides (e.g. disinfectants, pest control products) and laboratory chemicals.
Proxitane can also be used on floors, walls and in the atmosphere.
In food and beverage processing and production Proxitane finds application in the regular cleaning cycle of syrup make up plant, treated water carbonators, fruit crushing, juice concentrators and reconstitutors, food or condiment cookers and processors, transfer pipes/pumps, bottling/packaging/canning machines.
In breweries and wineries Proxitane finds application in the fermentation/ brew houses, the clarification/ filtration plant and tank farms/ bottling cellars during regular plant cleaning.
Proxitane is also used as a rapid high level disinfectant in the farming industry to protect animals from diseases.
Additionally, experts use Proxitane in the medical sector to sterilize equipment, pharmaceuticals and instruments, with the ultimate goal of improving patient health and wellbeing.
Proxitane may also be used on floors, walls and airborne.
Proxitane is used widely in food and beverage processing and production, breweries and wineries.
Proxitane is a non-rinse, anti-microbial CIP sanitiser.
Proxitane is used as a biocide to sanitise pre-cleaned processing equipment, transfer and storage plant, made from stainless steel or glass.
Proxitane is low-foaming and ideal for use in clean-in-place (CIP) systems.
Proxitane, the active compound in Proxitane, is among the most powerful known biocides.
Proxitane is effective against a wide spectrum of microbiological contaminations including aerobic and anaerobic bacteria and their spores; yeasts, moulds, fungi and their spores; and viruses.
Proxitane is extremely rapid in its action at ambient temperatures.
In food and beverage processing and production, use Proxitane in the regular cleaning cycle of syrup make-up plant, treated water carbonators, fruit crushing, juice concentrators and reconstitutors, food or condiment cookers and processors, transfer pipes and pumps, bottling, packaging and canning machines.
In breweries and wineries, use Proxitane in regular plant cleaning in fermentation and brewhouses, clarification and filtration plant, tank farms and bottling cellars.
Proxitane is formulated to be used on pre-cleaned surfaces that contain no detergents or surfactants.
The products performance will be dramatically reduced if soils are present on the surface such as fats, oil, starches or vegetable matter.
Proxitane sanitation is most efficient at pH’s below 7.
Proxitane is used by consumers, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.
Proxitane is sanitiser which is recommended for use on pre-cleaned surfaces such as equipment, pipelines, tanks, vats, filters, evaporators, pasteurises, and aseptic equipment in dairies, brewers, wineries, beverage and food processing plants, egg processing/packing equipment surfaces and eating establishments.
Proxitane is approved for use as a biocide in the EEA and/or Switzerland, for: human hygiene, disinfection, veterinary hygiene, food and animals feeds, drinking water, product preservation, preservation for liquid systems, controlling slimes.
Proxitane may be introduced continuously or intermittently depending upon needs of the end user.
Proxitane is a low foaming, clear, colourless liquid comprising an equilibrium mixture of peracetic acid, hydrogen peroxide, acetic acid and water.
Proxitane is used as a biocide to sanitise pre-cleaned surfaces in the food industry.
Proxitane is specialized for quick disinfection, environmental sanitation or in the final stages of cleaning equipment pipes and containers in breweries, milk and water factories beverage and other food processing industries.
So the chemical Proxitane is used instead of BKC , Formalin (formol) for disinfecting shrimp ponds.
The chemical Proxitane 15:23 can also cut toxic algae in ponds, decompose excess organic matter, and provide oxygen to the shrimp pond water environment.
The pH of a 1: 100 dilution of this product is about 3.0 and a 1: 500 dilution about ph 4.0.
Temperature plays a factor in effectiveness of Proxitane, for example at a temperature of 15°C and a pH value of 7, five times more peractetic acid is required to effectively deactivate pathogens than at a pH value of 7 and a temperature of 35°C.
Proxitane is effective against a wide spectrum of microbiological contaminations: bacteria, yeasts, moulds, fungi, viruses.
Sanitises degreased and precleaned CIP stainless steel or glass equipment.
Proxitane may also be used on floors, walls and airborne.
Proxitane is used widely in food and beverage processing and production, breweries and wineries.
Proxitane is a non-rinse, anti-microbial CIP sanitiser.
Proxitane is used as a biocide to sanitise pre-cleaned processing equipment, transfer and storage plant, made from stainless steel or glass.
A final water rinse is not necessary.
Proxitane is compatible with most post harvest fungicides.
Proxitane is non-corrosive in its diluted form against stainless steel and aluminium surfaces.
If the product is to be used on other surfaces, Proxitane is recommended that you apply product to a smaller test area to determine compatibility before proceeding with its use.
Proxitane may be fed to either the system water or the make-up water at an area of good mixing to promote rapid dispersion.
Proxitane can be continuously sprayed, using coarse spray, or submerged using solution containing no more than 40 ppm residual Peroxyacetic Acid.
Proxitane chemical is used to quickly disinfect food contact surfaces, especially in the beer, beverage, milk processing, canning, bottling of food and vegetable industries, and seafood processing. seafood, meat, sugar, cakes , chocolate and candy.
Proxitane is very effective in disinfecting all types of microorganisms, even in cold water conditions.
Proxitane component in Proxitane helps the product to be effective in quick pasteurization and the presence of hydrogen peroxide helps the product adapt to soaking or shampooing .
Proxitane is an excellent food grade sanitiser and also has uses as laundry bleach.
Each application may require a specific dosage rate and like all oxidising biocides, soil loadings can affect required application rate.
Proxitane is biocidal at between 100 and 200 mg/L as Peroxy acetic (Peracetic) acid levels.
Testing strips to determine in use concentration of Proxitane are available from Castle Chemicals.
Proxitane is low-foaming and ideal for use in clean-in-place (CIP) systems.
Proxitane, the active compound in Proxitane, is among the most powerful known biocides.
Proxitane is effective against a wide spectrum of microbiological contaminations including aerobic and anaerobic bacteria and their spores; yeasts, moulds, fungi and their spores; and viruses.
Proxitane is extremely rapid in its action at ambient temperatures.
In food and beverage processing and production, use Proxitane in the regular cleaning cycle of syrup make-up plant, treated water carbonators, fruit crushing, juice concentrators and reconstitutors, food or condiment cookers and processors, transfer pipes and pumps, bottling, packaging and canning machines.
In breweries and wineries, use Proxitane in regular plant cleaning in fermentation and brewhouses, clarification and filtration plant, tank farms and bottling cellars.
Proxitane has a high oxidation potential and is very reactive.
Proxitane exhibits excellent bactericidal and fungicidal activity against a wide range of microorganisms in cold and warm water.
Also more effective than chlorine, chlorine dioxide and quaternary products for sanitising food contact surfaces.
Proxitane helps to control spoilage or decay-causing bacteria and fungi in water that contacts raw, unprocessed fruits and vegetables.
As Proxitane does not contain surfactants Proxitane is ideal for use in ‘clean in place’ systems as part of a no water rinse regimen when systems can be flushed with finished product (to drain) before normal production resumes.”
Dairies & dairy farms uses:
When used in dairy farms, after the use of Proxitane surfaces must be drained and thoroughly rinsed with water prior to the next milking.
Proxitane is a high level disinfectant especially formulated for the cold sterilization of thermosensitive instruments and endoscopes.
Proxitane is based on a synergy of Proxitane and hydrogen peroxide.
Proxitane combines a broad spectrum of antimicrobial activity, rapid contact times and an enhanced material compatibility.
Proxitane gastroscopes, duodenoscopes, naso-laryngo-pharyngoscopes, laparoscopes, etc.), surgical instruments, anesthetic and heat- sensitive medical devices.
In addition, Proxitane is also a good disinfectant for the environment because it leaves no residue when used.
Preserve And Use:
The concentration of Proxitane can easily decrease when allowed to evaporate in the air.
Therefore, we only dilute Proxitane when used in sufficient doses.
Proxitane must be stored in a cool place, away from direct sunlight.
A Versatile Proxitane:
In the food industry, Proxitane is used in Cleaning in Place and Food Contact Sanitisation processes for safe, rapid microbial control.
Notably, certain food products, such as meat, poultry, fruit, vegetables and eggs, require direct protection as they can carry harmful microbes and be prone to spoilage.
In addition to microbial protection, Proxitane effectively boosts food safety by reducing the loss of goods due to fungi, viruses, algae and bacteria and enhances product quality throughout the useful shelf life and, in some cases, extends the shelf life itself.
Industry Uses:
Not Known or Reasonably Ascertainable
Oxidizing/reducing agents
Processing aids not otherwise specified
Intermediates
Bleaching agents
Corrosion inhibitor
Fuels and fuel additives
Consumer Uses:
Bleaching agents
Oxidizing/reducing agents
Experimental Properties of Proxitane:
Ready-to-use mixed solution
Effective even with the presence of proteins
Compatible with most common sensible materials
Compatible with heat-sensitive instruments
Rapid action: full spectrum in 5 min.
Stability of the ready-to-use solution: 15 days
Easy checking of Proxitane concentration with test strips
No aldehydes, safe for the user
Decomposes in water and oxygen
Odor of Proxitane:
At diluted concentrations, Proxitane is almost odorless.
However, the chemical Proxitane in concentrated form has a very strong and characteristic odor that helps users immediately distinguish it from other chemicals.
Chemical Will Depend On Factors:
Concentration, temperature and types of microorganisms that need to be destroyed.
However, usually we use Proxitane at a concentration of 0.05%–0.3% (mainly 0.2-0.5%).
The temperature for using Proxitane is in the range of 5–20 ºC .
If Proxitane is around 50ºC, the sterilization efficiency is higher and the sterilization time is shorter.
Do not use Proxitane at temperatures higher than 50ºC.
Proxitane at high concentrations can be stored for reuse, however, provided that they are not too dirty and additional Proxitane chemicals must be added to ensure concentration.
Because Proxitane at high concentrations has a very strong odor, when using, mixing solutions, transporting.
Lab and Field Data of Proxitane:
Laboratory data using standard disinfectant test methods have shown that peroxygens are effective biocides against food poisoning and food spoilage microorganisms in a range of conditions representative of those in the food industry.
Proxitane has been compared with sodium hypochlorite using the European Standard Disinfectant Test.
Proxitane is effective at concentrations of active ingredient considerably lower than sodium hypochlorite, with particularly good performance against Listeria monocytogenes.
Production of Proxitane:
Proxitane is produced industrially by the autoxidation of acetaldehyde:
O2 + CH3CHO → CH3CO3H
In the presence of a strong acid catalyst, such as sulfuric acid, acetic acid and hydrogen peroxide produce Proxitane:
H2O2 + CH3CO2H ⇌ CH3CO3H + H2O
However, in concentrations (3-6%) of vinegar and hydrogen peroxide marketed for household use, mixing without a strong acid catalyst will not form Proxitane.
As an alternative, acetyl chloride and acetic anhydride can be used to generate a solution of the acid with lower water content.
Proxitane is generated in situ by some laundry detergents.
This is achieved by the action of bleach activators, such as tetraacetylethylenediamine and sodium nonanoyloxybenzenesulfonate, upon hydrogen peroxide formed from sodium percarbonate in water.
The Proxitane is a more effective bleaching agent than hydrogen peroxide itself.
Proxitane is also formed naturally in the environment through a series of photochemical reactions involving formaldehyde and photo-oxidant radicals.
Proxitane is always sold in solution as a mixture with acetic acid and hydrogen peroxide to maintain its stability.
The concentration of Proxitane as the active ingredient can vary.
Epoxidation, Proxitane:
Although less active than more acidic peracids (e.g., m-CPBA), Proxitane in various forms is used for the epoxidation of various alkenes (Prilezhaev reaction).
Useful applications are for unsaturated fats, synthetic and natural rubbers, and some natural products such as pinene.
A variety of factors affect the amount of free acid or sulfuric acid (used to prepare the peracid in the first place).
Proxitane is a highly effective biocide and oxidizing agent, rapidly destroys microorganisms such as bacteria, fungi and viruses and kills pathogens.
While it is extremely performant, Proxitane is chlorine free and breaks down quickly into naturally occurring substances (water, oxygen and carbon dioxide) ౼ making Proxitane a sustainable, environmentally friendly choice.
For these reasons, Proxitane is the ideal disinfectant across a number of different industries, namely medical, food and drink, animal biosecurity and industrial laundry.
Handling And Storage of Proxitane:
Precautions for safe handling:
Advice on safe handling:
Take precautionary measures against static discharge.
Hygiene measures:
Immediately change contaminated clothing.
Apply preventive skin protection.
Wash hands and face after working with substance.
Conditions for safe storage, including any incompatibilities:
Storage conditions:
Tightly closed.
Storage stability:
Recommended storage temperature: 2 - 8 °C
Light sensitive.
Stability And Reactivity of Proxitane:
Chemical stability:
Proxitane is chemically stable under standard ambient conditions (room temperature).
Possibility of hazardous reactions:
No data available
First Aid Measures of Proxitane:
General advice:
First aiders need to protect themselves.
Show this material safety data sheet to the doctor in attendance.
If inhaled:
After inhalation:
Fresh air.
Immediately call in physician.
In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with
water/ shower.
Call a physician immediately.
In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
If swallowed:
After swallowing:
Make victim drink water (two glasses at most).
Call a physician immediately.
Do not attempt to neutralise.
Indication of any immediate medical attention and special treatment needed:
No data available
Fire Fighting Measures of Proxitane:
Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
Further information:
Remove container from danger zone and cool with water.
Prevent fire extinguishing water from contaminating surface water or the ground water system.
Accidental Release Measures of Proxitane:
Environmental precautions:
Do not let product enter drains.
Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up with liquid-absorbent material.
Dispose of properly.
Clean up affected area.
Exposure Controls/Personal Protection of Proxitane:
Personal protective equipment:
Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: butyl-rubber
Minimum layer thickness: 0,3 mm
Break through time: 480 min
Splash contact:
Material: Nature latex/chloroprene
Minimum layer thickness: 0,6 mm
Break through time: 30 min
Body Protection:
Flame retardant antistatic protective clothing.
Respiratory protection:
Recommended Filter type: Filter type ABEK
Control of environmental exposure:
Do not let product enter drains.
Identifiers of Proxitane:
CAS Number: 79-21-0
ChEBI: CHEBI:42530
ChEMBL: ChEMBL444965
ChemSpider: 6336
ECHA InfoCard: 100.001.079
EC Number: 201-186-8
KEGG: D03467
PubChem CID: 6585
RTECS number: SD8750000
UNII: I6KPI2E1HD
UN number: 3107 3105
CompTox Dashboard (EPA): DTXSID1025853
Properties of Proxitane:
Peroxyacetic Acid Content: 5% w/w
Hydrogen Peroxide Content: min. 25% w/w
Acidicty as Acetic Acid: ca. 7.5% w/w
Density at 20°C: ca. 1.13 g/cm3
Freezing Point: below –30°C
Miscibility at 23°C:
Miscible in all properties with: water
Thermal Stability:
Critical Temperature (SADT): ca. 60°C
Recommended Storage Temperature: -20°C to 35°C
Maintenance of activity at 20°C: ca. 12 months
Chemical formula: CH3CO3H
Molar mass: 76.05 g/mol
Appearance :Colorless liquid
Density: 1.0375 g/mL
Melting point: 0 °C (32 °F; 273 K)
Boiling point: 105 °C (221 °F; 378 K) 25 C @ (1.6 kPa)
Acidity (pKa): 8.2
Refractive index (nD): 1.3974 (589 nm, 20 °C)
Viscosity: 3.280 cP
Physical state: liquid
Color: No data available
Odor: No data available
Molecular Weight: 76.05 g/mol
XLogP3-AA: -0.4
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 3
Rotatable Bond Count: 1
Exact Mass: 76.016043985 g/mol
Monoisotopic Mass: 76.016043985 g/mol
Topological Polar Surface Area: 46.5Ų
Heavy Atom Count: 5
Complexity: 40.2
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 1
Compound Is Canonicalized: Yes
Specifications of Proxitane:
Assay (peracetic acid): 37.5 - 40.5 %
Identity (IR-spectrum): passes test
Names of Proxitane:
Preferred IUPAC name:
Ethaneperoxoic acid
Other names:
Peroxyacetic acid
Acetic peroxide
Acetyl hydroperoxide
Proxitane
MeSH Entry Terms of Proxitane:
Acetyl Hydroperoxide
Acid, Peracetic
Acid, Peroxyacetic
Acid, Peroxyethanoic
Desoxone 1
Desoxone-1
Desoxone1
Dialax
Peracetate, Sodium
Peracetate, Zinc
Peracetic Acid
Peracetic Acid, Sodium Salt
Peroxyacetic Acid
Peroxyethanoic Acid
Sodium Peracetate
Zinc Peracetate
