Benzalkonium chloride

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Benzalkonium chloride
Benzalkonium chloride Structure V.1.svg
Other names
N-Alkyl-N-benzyl-N,N-dimethylammonium chloride; Alkyldimethylbenzylammonium chloride; ADBAC; BC50 BC80; Quaternary ammonium compounds; quats
ECHA InfoCard 100.132.452
EC Number
  • 264-151-6
RTECS number
  • BO3150000
Molar mass variable
Appearance 100% is white or yellow powder; gelatinous lumps; Solutions BC50 (50%) & BC80 (80%) are colourless to pale yellow solutions
Density 0.98 g/cm3
very soluble
D08AJ01 (WHO)
GHS pictograms GHS05: CorrosiveGHS07: HarmfulGHS09: Environmental hazard
GHS Signal word Danger
H302, H312, H314, H318, H400, H410
P260, P264, P270, P273, P280, P301+312, P301+330+331, P302+352, P303+361+353, P304+340, P305+351+338, P310, P312, P321, P322, P330, P363, P391, P405, P501
NFPA 704 (fire diamond)
Flammability code 0: Will not burn. E.g. waterHealth code 3: Short exposure could cause serious temporary or residual injury. E.g. chlorine gasReactivity code 0: Normally stable, even under fire exposure conditions, and is not reactive with water. E.g. liquid nitrogenSpecial hazards (white): no codeNFPA 704 four-colored diamond
Flash point 250 °C (482 °F; 523 K) (if solvent based)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
☒N verify (what is ☑Y☒N ?)
Infobox references

Benzalkonium chloride, also known as BZK, BKC, BAK, BAC, alkyldimethylbenzylammonium chloride and ADBAC, is a type of cationic surfactant. It is an organic salt classified as a quaternary ammonium compound. It has three main categories of use: as a biocide, a cationic surfactant, and as a phase transfer agent.[1] ADBACs are a mixture of alkylbenzyldimethylammonium chlorides, in which the alkyl group has various even-numbered alkyl chain lengths.

Solubility and physical properties

Depending on purity, benzalkonium chloride ranges from colourless to a pale yellow (impure). Benzalkonium chloride is readily soluble in ethanol and acetone. Dissolution in water is slow. Aqueous solutions should be neutral to slightly alkaline. Solutions foam when shaken. Concentrated solutions have a bitter taste and a faint almond-like odour.

Standard concentrates are manufactured as 50% and 80% w/w solutions, and sold under trade names such as BC50, BC80, BAC50, BAC80, etc. The 50% solution is purely aqueous, while more concentrated solutions require incorporation of rheology modifiers (alcohols, polyethylene glycols, etc.) to prevent increases in viscosity or gel formation under low temperature conditions.

Cationic surfactant

Benzalkonium chloride also possesses surfactant properties, dissolving the lipid phase of the tear film and increasing drug penetration, making it a useful excipient, but at the risk of causing damage to the surface of the eye.[2]

  • Laundry detergents and treatments
  • Softeners for textiles

Phase transfer agent

Benzalkonium chloride is a mainstay of phase-transfer catalysis, an important technology in the synthesis of organic compounds, including drugs.

Bioactive agents

Especially for its antimicrobial activity, benzalkonium chloride is an active ingredient in many consumer products:

  • Pharmaceutical products such as eye, ear and nasal drops or sprays, as a preservative
  • Personal care products such as hand sanitizers, wet wipes, shampoos, soaps, deodorants and cosmetics
  • Skin antiseptics and wound wash sprays, such as Bactine.[3][4]
  • Throat lozenges[5] and mouthwashes, as a biocide
  • Spermicidal creams
  • Over-the-counter single-application treatments for herpes, cold-sores, and fever blisters, such as RELEEV and Viroxyn
  • Burn and ulcer treatment
  • Spray disinfectants for hard surface sanitization
  • Cleaners for floor and hard surfaces as a disinfectant, such as Lysol and Dettol antibacterial spray and wipes.
  • Algaecides for clearing of algae, moss, lichens from paths, roof tiles, swimming pools, masonry, etc.

Benzalkonium chloride is also used in many non-consumer processes and products, including as an active ingredient in surgical disinfection. A comprehensive list of uses includes industrial applications.[6] An advantage of benzalkonium chloride, not shared by ethanol-based antiseptics or hydrogen peroxide antiseptic, is that it does not cause a burning sensation when applied to broken skin.[citation needed] However, prolonged or repeated skin contact may cause dermatitis.[7]


Benzalkonium chloride is a frequently used preservative in eye drops; typical concentrations range from 0.004% to 0.01%. Stronger concentrations can be caustic[8] and cause irreversible damage to the corneal endothelium.[9]

Avoiding the use of benzalkonium chloride solutions while contact lenses are in place is discussed in the literature.[10][11]


It is used in beekeeping for the treatment of rotten diseases of the brood.[12]

Adverse effects

Although historically benzalkonium chloride has been ubiquitous as a preservative in ophthalmic preparations, its ocular toxicity and irritant properties,[13] in conjunction with consumer demand, have led pharmaceutical companies to increase production of preservative-free preparations, or to replace benzalkonium chloride with preservatives which are less harmful.

Many mass-marketed inhaler and nasal spray formulations contain benzalkonium chloride as a preservative, despite substantial evidence that it can adversely affect ciliary motion, mucociliary clearance, nasal mucosal histology, human neutrophil function, and leukocyte response to local inflammation.[14] Although some studies have found no correlation between use of benzalkonium chloride in concentrations at or below 0.1% in nasal sprays and drug-induced rhinitis,[15] others have recommended that benzalkonium chloride in nasal sprays be avoided.[16][17] In the United States, nasal steroid preparations that are free of benzalkonium chloride include budesonide, triamcinolone acetonide, dexamethasone, and Beconase and Vancenase aerosol inhalers.[14]

Benzalkonium chloride is irritant to middle ear tissues at typically used concentrations. Inner ear toxicity has been demonstrated.[18]

Occupational exposure to benzalkonium chloride has been linked to the development of asthma.[19] In 2011, a large clinical trial designed to evaluate the efficacy of hand sanitizers based on different active ingredients in preventing virus transmission amongst schoolchildren was re-designed to exclude sanitizers based on benzalkonium chloride due to safety concerns.[20]

Benzalkonium chloride has been in common use as a pharmaceutical preservative and antimicrobial since the 1940s. While early studies confirmed the corrosive and irritant properties of benzalkonium chloride, investigations into the adverse effects of, and disease states linked to, benzalkonium chloride have only surfaced during the past 30 years.

Benzalkonium chloride is classed as a Category III antiseptic active ingredient by the United States Food and Drug Administration (FDA). Ingredients are categorised as Category III when "available data are insufficient to classify as safe and effective, and further testing is required”. Benzalkonium chloride was deferred from further rulemaking in the 2019 FDA Final Rule on safety and effectiveness of consumer hand sanitizers, "to allow for the ongoing study and submission of additional safety and effectiveness data necessary to make a determination" on whether it met these criteria for use in OTC hand sanitizers, but the agency indicated it did not intend to take action to remove benzalkonium chloride-based hand sanitizers from the market.[21] There is acknowledgement that more data are required on its safety, efficacy and effectiveness, especially with relation to:

  • Human pharmacokinetic studies, including information on its metabolites
  • Studies on animal absorption, distribution, metabolism, and excretion
  • Data to help define the effect of formulation on dermal absorption
  • Carcinogenicity
  • Studies on developmental and reproductive toxicology
  • Potential hormonal effects
  • Assessment of the potential for development of bacterial resistance
  • Risks of using it as a contraceptive method

In Russia and China, benzalkonium chloride is used as a contraceptive. Tablets are inserted vaginally, or a gel is applied, resulting in local spermicidal contraception.[22][23] It's not a failsafe method, and can cause irritation.


RTECS lists the following acute toxicity data:[24]

Organism Route of exposure Dose (LD50)
Rat Intravenous 13.9 mg/kg
Rat Oral 240 mg/kg
Rat Intraperitoneal 14.5 mg/kg
Rat Subcutaneous 400 mg/kg
Mouse Subcutaneous 64 mg/kg

Benzalkonium chloride is a human skin and severe eye irritant.[25] It is a suspected respiratory toxicant, immunotoxicant, gastrointestinal toxicant and neurotoxicant.[26][27][28]

Benzalkonium chloride formulations for consumer use are dilute solutions. Concentrated solutions are toxic to humans, causing corrosion/irritation to the skin and mucosa, and death if taken internally in sufficient volumes. 0.1% is the maximum concentration of benzalkonium chloride that does not produce primary irritation on intact skin or act as a sensitizer.[29]

Poisoning by benzalkonium chloride is recognised in the literature.[30] A 2014 case study detailing the fatal ingestion of up to 8.1 oz (240ml) of 10% benzalkonium chloride in a 78-year-old male also includes a summary of the currently published case reports of benzalkonium chloride ingestion. While the majority of cases were caused by confusion about the contents of containers, one case cites incorrect pharmacy dilution of benzalkonium chloride as the cause of poisoning of two infants.[31]

Benzalkonium chloride poisoning of domestic pets has been recognised as a result of direct contact with surfaces cleaned with disinfectants using benzalkonium chloride as an active ingredient.[32]

As many as 20 people were murdered in Japan, by a nurse injecting this.[33]

Biological activity

The greatest biocidal activity is associated with the C12 dodecyl & C14 myristyl alkyl derivatives. The mechanism of bactericidal/microbicidal action is thought to be due to disruption of intermolecular interactions. This can cause dissociation of cellular membrane lipid bilayers, which compromises cellular permeability controls and induces leakage of cellular contents. Other biomolecular complexes within the bacterial cell can also undergo dissociation. Enzymes, which finely control a wide range of respiratory and metabolic cellular activities, are particularly susceptible to deactivation. Critical intermolecular interactions and tertiary structures in such highly specific biochemical systems can be readily disrupted by cationic surfactants.

Benzalkonium chloride solutions are fast-acting biocidal agents with a moderately long duration of action. They are active against bacteria and some viruses, fungi, and protozoa. Bacterial spores are considered to be resistant. Solutions are bacteriostatic or bactericidal according to their concentration. Gram-positive bacteria are generally more susceptible than gram-negative bacteria. Its activity depends on the surfactant concentration and also on the bacterial concentration (inoculum) at the moment of the treatment.[34] Activity is not greatly affected by pH, but increases substantially at higher temperatures and prolonged exposure times.

In a 1998 study using the FDA protocol, a non-alcohol sanitizer with benzalkonium chloride as the active ingredient met the FDA performance standards, while Purell, a popular alcohol-based sanitizer, did not. The study, which was undertaken and reported by a leading US developer, manufacturer and marketer of topical antimicrobial pharmaceuticals based on quaternary ammonium compounds, found that their own benzalkonium chloride-based sanitizer performed better than alcohol-based hand sanitizer after repeated use.[35]

Advancements in the quality and efficacy of benzalkonium chloride in current non-alcohol hand sanitizers has addressed the CDC concerns regarding gram negative bacteria, with the leading products being equal if not more effective against gram negative, particularly New Delhi metallo-beta-lactamase 1 and other antibiotic resistant bacteria.[citation needed]

Newer formulations using benzalkonium blended with various quaternary ammonium derivatives can be used to extend the biocidal spectrum and enhance the efficacy of benzalkonium based disinfection products.[citation needed] Formulation techniques have been used to great effect in enhancing the virucidal activity of quaternary ammonium-based disinfectants such as Virucide 100 to typical healthcare infection hazards such as hepatitis and HIV.[citation needed] The use of appropriate excipients can also greatly enhance the spectrum, performance and detergency, and prevent deactivation under use conditions.[citation needed] Formulation can also help minimise deactivation of benzalkonium solutions in the presence of organic and inorganic contamination.[citation needed]


Biodegradation Pathways of BAC with Fenton Process (H2O2/Fe2+)[36]

Benzalkonium chloride degradation follows consecutive debenzylation, dealkylation, and demethylation steps producing benzyl chloride, alkyl dimethyl amine, dimethyl amine, long chain alkane, and ammonia.[36] The intermediates, major, and minor products can then be broken down into CO2, H2O, NH3, and Cl. The first step to the biodegradation of BAC is the fission or splitting of the alkyl chain from the quaternary nitrogen as shown in the diagram. This is done by abstracting the hydrogen from the alkyl chain by using a hydroxyl radical leading to a carbon centered radical. This results in benzyl dimethyl amine as the first intermediate and dodecanal as the major product.[36] From here, benzyl dimethyl amine can be oxidized to benzoic acid using the Fenton process. The trimethyl amine group in dimethylbenzylamine can be cleaved to form a benzyl that can be further oxidized to benzoic acid. Benzoic acid uses hydroxylation (adding a hydroxyl group) to form p-hydroxybenzoic acid. Benzyldimethylamine can then be converted into ammonia by performing demethylation twice, which removes both methyl groups, followed by debenzylation, removing the benzyl group using hydrogenation.[36] The diagram represents suggested pathways of the biodegradation of BAC for both the hydrophobic and the hydrophilic regions of the surfactant. Since Stearalkonium chloride is a type of BAC, the biodegradation process should happen in the same manner.


In September 2016, the FDA announced a ban on nineteen ingredients in consumer antibacterial soaps citing a lack of evidence for safety and effectiveness. A ban on three additional ingredients, including benzalkonium chloride, was deferred to allow ongoing studies to be completed.[37]

See also


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  2. ^ Bartlett, J (2013). Clinical Ocular Pharmacology (2 ed.). Elsevier. p. 20. ISBN 978-1-483-19391-5.
  3. ^ "Bactine® Pain Relieving Cleansing Spray". Retrieved 2020-03-04.
  4. ^ "Bactine Original First Aid Liquid, 4 fl oz Ingredients and Reviews". SkinSAFE. Retrieved 2020-03-04.
  5. ^ "Bradosol". Archived from the original on 2014-10-12. Retrieved 2013-05-20.
  6. ^ Ash, M; Ash, I (2004). Handbook of Preservatives. Synapse Info Resources. p. 286. ISBN 978-1-890-59566-1.
  7. ^ "Benzalkonium chloride Material Safety Data Sheet". 2013-05-22. Archived from the original on 2012-10-21.
  8. ^ Nelson, L; Goldfrank, L (2011). Goldfrank's Toxicologic Emergencies (9 ed.). McGraw-Hill Medical. p. 803. ISBN 978-0-071-60593-9.
  9. ^ Baudouin, C; Creuzot-Garcher, C; Hoang-Xuan, T (2001). Inflammatory Diseases of the Conjunctiva (1, illustrated ed.). Thieme. p. 141. ISBN 978-3-131-25871-7.
  10. ^ Otten, Mary; Szabocsik, John M. (1976). "Measurement of Preservative Binding with SOFLENS (polymacon) Contact Lens". Clinical and Experimental Optometry. 59 (8): 277. doi:10.1111/j.1444-0938.1976.tb01445.x.
  11. ^ M Akers, "Consideration in selecting antimicrobial preservative agents for parenteral product development", Pharmaceutical Technology, May, p. 36 (1984).
  12. ^ "БЕНЗАЛКОНИЯ ХЛОРИД (benzalkonium chloride) действующее вещество |". (in Russian). 2017-04-15. Retrieved 2019-08-28.
  13. ^ Baudouin, C; Labbé, A; Liang, H; Pauly, A; Brignole-Baudouin, F (2010). "Preservatives in eyedrops: the good, the bad and the ugly". Prog Retin Eye Res. 29 (4): 312–34. doi:10.1016/j.preteyeres.2010.03.001. PMID 20302969.
  14. ^ a b Kennedy, D W; Bolger, W E; Zinreich, S J (2001). Diseases of the Sinuses Diagnosis and Management. B.C. Decker Inc. p. 162. ISBN 978-1-550-09045-1.
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  17. ^ Graf, P (2005). "Rhinitis medicamentosa: a review of causes and treatment". Treatments in Respiratory Medicine. 4 (1): 21–9. doi:10.2165/00151829-200504010-00003. PMID 15725047.
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  19. ^ Malo, J; Chan-Yeung, M; Bernstein, D I (2013). Asthma in the Workplace (4, illustrated, revised ed.). CRC Press. p. 198. ISBN 978-1-842-14591-3.
  20. ^ Gerald, Lynn B; Gerald, Joe K; McClure, Leslie A; Harrington, Kathy; Erwin, Sue; Bailey, William C (2011). "Redesigning a large school-based clinical trial in response to changes in community practice". Clinical Trials: Journal of the Society for Clinical Trials. 8 (3): 311–319. doi:10.1177/1740774511403513. ISSN 1740-7745. PMC 3145214. PMID 21730079.
  21. ^ "FDA issues final rule on safety and effectiveness of consumer hand sanitizers". United States Food and Drug Administration. Retrieved 23 March 2020.
  22. ^ "ISRCTN - ISRCTN16203579: Effectiveness of BenZalKonium chloride gel as vaginal contraceptive: a multicentric randomised controlled trial".
  23. ^ Li, Weihua; Huang, Zirong; Wu, Yu; Wang, Haiyun; Zhou, Xiaobo; Xiao, Zhiqin; Ding, Xuncheng; Xu, Jinxun (June 26, 2013). "Effectiveness of an optimized benzalkonium chloride gel as vaginal contraceptive: a randomized controlled trial among Chinese women". Contraception. 87 (6): 756–765. doi:10.1016/j.contraception.2012.09.012. PMID 23089047.
  24. ^ "RTECS BO3150000 Ammonium, alkyldimethylbenzyl - , chloride".
  25. ^ Lewis R J Sr (2004). Lewis, Richard J (ed.). Sax's Dangerous Properties of Industrial Materials (11 ed.). Wiley-Interscience, Wiley & Sons, Inc. Hoboken, NJ. p. 104. doi:10.1002/0471701343. ISBN 978-0471701347. SAFETY PROFILE: Poison by ingestion. Moderately toxic by skin contact. A severe eye irritant. A bactericide and fungicide. Dangerous; when heated to decomposition it emits toxic fumes of Cl- and NOx.
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  36. ^ a b c d Rowe, Raymond (2009). Handbook of Pharmaceutical Excipients 6th Edition. London, UK: Pharmaceutical Press. pp. 56–58. ISBN 978-1-58212-135-2.
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