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ChemicalBook--->CAS DataBase List--->64-18-6

64-18-6

64-18-6 Structure

64-18-6 Structure
IdentificationMore
[Name]

Formic acid
[CAS]

64-18-6
[Synonyms]

ALDEHYDE C1
FORMALDE-FRESH
FORMALDE-FRESH SOLUTION
FORMALDE-FRESH SOLUTION, BUFFERED
FORMALDEHYDE
FORMALDEHYDE, BUFFERED
FORMALDEHYDE, CARSON-MILLON
FORMALDEHYDE DEVELOPING SOLUTION
FORMALDEHYDE SOLUTION
FORMALDEHYDI
FORMALIN
FORMALIN, CARSONS
FORMALIN, NEUTRAL
FORMALIN NEUTRAL BUFFER
FORMALIN, NEUTRAL BUFFERED
FORMALIN NEUTRAL SODIUM SALT
FORMIC ALDEHYDE
FORMOL
METHANAL
METHANONE
[EINECS(EC#)]

200-001-8
[Molecular Formula]

CH2O2
[MDL Number]

MFCD00003274
[Molecular Weight]

46.03
[MOL File]

64-18-6.mol
Chemical PropertiesBack Directory
[Appearance]

Colorless, fuming liquid; penetrating odor. strong reducing agent. Soluble in water, alcohol, and ether. Combustible.
[Melting point ]

8.2-8.4 °C (lit.)
[Boiling point ]

100-101 °C (lit.)
[density ]

1.22
[vapor density ]

1.03 (vs air)
[vapor pressure ]

52 mm Hg ( 37 °C)
[FEMA ]

2487
[refractive index ]

n20/D 1.377
[Fp ]

133 °F
[storage temp. ]

2-8°C
[solubility ]

H2O: soluble1g/10 mL, clear, colorless
[form ]

Liquid
[pka]

3.75(at 20℃)
[color ]

APHA: ≤15
[Specific Gravity]

1.216 (20℃/20℃)
[Odor]

at 0.10 % in water. pungent vinegar formyl
[PH]

2.2 (10g/l, H2O, 20℃)
[Stability:]

Stable. Substances to be avoided include strong bases, strong oxidizing agents and powdered metals, furfuryl alcohol. Combustible. Hygroscopic. Pressure may build up in tightly closed bottles, so bottles should be opened carefully and vented periodically.
[explosive limit]

12-38%(V)
[Odor Type]

acetic
[Water Solubility ]

MISCIBLE
[Sensitive ]

Hygroscopic
[λmax]

λ: 260 nm Amax: 0.03
λ: 280 nm Amax: 0.01
[JECFA Number]

79
[Merck ]

14,4241
[BRN ]

1209246
[Henry's Law Constant]

At 25 °C: 95.2, 75.1, 39.3, 10.7, and 3.17 at pH values of 1.35, 3.09, 4.05, 4.99, and 6.21, respectively (Hakuta et al., 1977)
[Dielectric constant]

58.0(16℃)
[Exposure limits]

TLV-TWA 5 ppm (~9 mg/m3) (ACGIH, MSHA, OSHA, and NIOSH); IDLH 100 ppm (180 mg/m3) (NIOSH).
[InChIKey]

BDAGIHXWWSANSR-UHFFFAOYSA-N
[LogP]

-0.540
[Uses]

Dyeing and finishing of textile; leather treatment; chemicals (formates, oxalic acid, organic esters); manufacture of fumigants, insecticides, refrigerants; solvents for perfumes, lacquers; electroplating; brewing (antiseptic); silvering glass; cellulose
[CAS DataBase Reference]

64-18-6(CAS DataBase Reference)
[NIST Chemistry Reference]

Formic acid(64-18-6)
[EPA Substance Registry System]

64-18-6(EPA Substance)
Safety DataBack Directory
[Hazard Codes ]

T,C,Xi
[Risk Statements ]

R23/24/25:Toxic by inhalation, in contact with skin and if swallowed .
R34:Causes burns.
R40:Limited evidence of a carcinogenic effect.
R43:May cause sensitization by skin contact.
R35:Causes severe burns.
R36/38:Irritating to eyes and skin .
[Safety Statements ]

S36/37:Wear suitable protective clothing and gloves .
S45:In case of accident or if you feel unwell, seek medical advice immediately (show label where possible) .
S26:In case of contact with eyes, rinse immediately with plenty of water and seek medical advice .
S23:Do not breathe gas/fumes/vapor/spray (appropriate wording to be specified by the manufacturer) .
S36/37/39:Wear suitable protective clothing, gloves and eye/face protection .
[RIDADR ]

UN 1198 3/PG 3
[WGK Germany ]

2
[RTECS ]

LP8925000
[F ]

10
[Autoignition Temperature]

1004 °F
[TSCA ]

Yes
[HazardClass ]

8
[PackingGroup ]

II
[HS Code ]

29151100
[Safety Profile]

Poison by inhalation, intravenous, and intraperitoneal routes. Moderately toxic by ingestion. Mutation data reported. Corrosive. A skin and severe eye irritant. A substance migrating to food from packaging materials. Combustible liquid when exposed to heat or flame; can react vigorously with oxidizing materials. Explosive reaction with furfuryl alcohol, H202, T1(NO3)3*3H2O nitromethane, P2O5. To fight fire, use CO2, dry chemical, alcohol foam. When heated to decomposition it emits acrid smoke and irritating fumes.
[Hazardous Substances Data]

64-18-6(Hazardous Substances Data)
[Toxicity]

LD50 in mice (mg/kg): 1100 orally; 145 i.v. (Malorny)
[IDLA]

30 ppm
Raw materials And Preparation ProductsBack Directory
[Raw materials]

Sodium hydroxide-->Methanol-->Sulfuric acid-->Triethylamine-->Ammonia-->Sodium Methoxide-->Phosphoric acid-->CARBON MONOXIDE-->PETROLEUM ETHER-->Sodium formate-->Methyl formate-->METALLURGICAL COKE
[Preparation Products]

[4-AMINO-2-(TRIFLUOROMETHYL)PYRIMIDIN-5-YL]METHANOL-->8-BROMO-3-METHYL-3,7-DIHYDRO-PURINE-2,6-DIONE-->Sulfur Yellow GC-->2-Ethylbutyric acid-->3,4-DIHYDROISOQUINOLINE-->Benzyl formate-->N-Methylformamide-->1-Methylpiperidine-4-carboxylic acid hydrochloride-->2-METHANESULFONYL-4-METHYL-PYRIMIDINE-->5-Ethyl-2-pyridineethanol-->METHYL PENT-4-YN-2-YLCARBAMATE-->Sulfur Red Brown B3R-->Rhodinol-->5-Methyl-2-(methylsulfonyl)pyrimidine ,97%-->5-AMINO-6-CHLORO-PYRIMIDIN-4-OL-->4-AMINO-2-(TRIFLUOROMETHYL)PYRIMIDINE-5-CARBALDEHYDE-->7-Hydroxy-6-methoxy-3,4-dihydroisoquinoline-->1-METHYL-1-CYCLOHEXANECARBOXYLIC ACID-->(1H-INDAZOL-3-YL)-ACETIC ACID-->Diethoxymethyl acetate-->Epoxidized soya bean oil-->C.I.BASICBLUE22-->dimethyl dodecyl thioic propylene betaine-->5,7-dichlorooxazolo[5,4-d]pyrimidine-->GUANINE SULFATE-->1-FORMYL-4-METHYLPIPERAZINE-->4-Azabenzimidazole-->1,3,5-TRIMETHYL-1,3,5-TRIPHENYLCYCLOTRISILOXANE-->4,4'-Methylenebis(N,N-dimethylaniline)-->3-FLUORO-N-METHYLANILINE-->2-Hydroxy-N-(4-methoxyphenyl)-11H-benzo[a]carbazole-3-carboxamide-->Pigment Yellow 83-->2-AMINO-4,4'-DICHLORODIPHENYL ETHER-->2-OXO-2,3-DIHYDRO-BENZOOXAZOLE-5-CARBOXYLIC ACID-->1-(2-Hydroxyethyl)-4-methylpiperazine-->1H-Benzimidazole-5-carboxylic acid-->3-METHYLTHIOPHENE-2-CARBONITRILE-->Geranyl formate-->ETHYL 2,4-DICHLOROBENZOATE-->CINNAMYL FORMATE
Hazard InformationBack Directory
[General Description]

A colorless liquid with a pungent odor. Flash point 156°F. Density 10.2 lb/gal. Corrosive to metals and tissue.
[Reactivity Profile]

FORMIC ACID(64-18-6) reacts exothmerically with all bases, both organic (for example, the amines) and inorganic. Reacts with active metals to form gaseous hydrogen and a metal salt. Reacts with cyanide salts to generate gaseous hydrogen cyanide. Reacts with diazo compounds, dithiocarbamates, isocyanates, mercaptans, nitrides, and sulfides to generate flammable or toxic gases. Reacts with sulfites, nitrites, thiosulfates (to give H2S and SO3), dithionites (SO2), to generate flammable and/or toxic gases and heat. Reacts with carbonates and bicarbonates to generate carbon dioxide but still heat. Can be oxidized by strong oxidizing agents and reduced by strong reducing agents. These reactions generate heat. May initiate polymerization reactions or catalyze other chemical reactions. A mixture with furfuryl alcohol exploded [Chem. Eng. News 18:72(1940)].
[Air & Water Reactions]

Fumes in air. Soluble in water with release of heat.
[Hazard]

Corrosive to skin and tissue.
[Health Hazard]

Liquid causes skin and eye burns. Vapors are irritating and painful to breath. Vapor exposure may cause nausea and vomiting.
[Potential Exposure]

Formic acid is a strong reducing agent and is used as a decalcifier. It is used in pharmaceuticals; in dyeing textiles and finishing color-fast wool; electroplat ing, coagulating latex rubber; regeneration old rubber, and dehairing, plumping, and tanning leather. It is also used in the manufacture of acetic acid, airplane dope; allyl alcohol; cellulose formate; phenolic resins; and oxalate; and it is used in the laundry, textile, insecticide, refrigeration, and paper industries; as well as in drug manufacture.
[Fire Hazard]

Special Hazards of Combustion Products: Toxic vapor generated in fires
[First aid]

If this chemical gets into the eyes, remove any contact lenses at once and irrigate immediately for at least 15 minutes, occasionally lifting upper and lower lids. Seek medical attention immediately. If this chemical contacts the skin, remove contaminated clothing and wash immediately with soap and water. Seek medical attention immediately. If this chemical has been inhaled, remove from exposure, begin rescue breathing (using universal precautions, includ ing resuscitation mask) if breathing has stopped and CPR if heart action has stopped. Transfer promptly to a medical facility. When this chemical has been swallowed, get medi cal attention. If victim is conscious, administer water or milk. Do not induce vomiting.
[Shipping]

UN1779 Formic acid, with>85% acid by mass, Hazard class: 8; Labels: 8-Corrosive material, 3-Flammable liquid
[Incompatibilities]

Vapors may form explosive mixture with air. A medium strong acid and a strong reducing agent. Violent reaction with oxidizers, furfuryl alcohol; hydrogen peroxide; nitromethane. Incompatible with strong acids; bases, ammonia, aliphatic amines; alkanolamines, isocya nates, alkylene oxides; epichlorohydrin. Decomposes on heating and on contact with strong acids forming carbon monoxide. Carbamates are incompatible with strong acids and bases, and especially incompatible with strong reducing agents such as hydrideds and active metals. Contact with active metals or nitrides form flammable gaseous hydrogen. Incompatible with strongly oxidizing acids, peroxides, and hydroperoxides. Attacks metals: aluminum, cast iron and steel; many plastics, rubber and coatings.
[Description]

Formic acid is a clear, colorless liquid with a pungent odor. Formic acid was first isolated from certain ants and was named after the Latin formica, meaning ant. It is made by the action of sulfuric acid on sodium formate, which is produced from carbon monoxide and sodium hydroxide. It is also produced as a by-product in the manufacture of other chemicals such as acetic acid.
It can be anticipated that use of formic acid will continuously increase as it replaces inorganic acids and has a potential role in new energy technology. Formic acid toxicity is of a special interest as the acid is the toxic metabolite of methanol.
[Chemical Properties]

Formic acid has a pungent, penetrating odor Formic acid is the frst member of the homologous series identifed as fatty acids with general formula RCOOH This acid was obtained frst from the red ants; its common name is derived from the family name for ants, Formicidae This substance also occurs naturally in bees and wasps and is presumed to be responsible for the sting of these insects.
[Chemical Properties]

Formic acid, or methanoic acid, is the first member of the homologous series identified as fatty acids with the general formula RCOOH. Formic acid was obtained first from the red ant; itscommon name is derived from the family name for ants, Formi- cidae. This substance also occurs naturally in bees and wasps, and is presumed to be responsible for the "sting" of these insects.
Formic acid has a pungent, penetrating odor. It may be synthesized from anhydrous sodium formate and concentrated H2S04 at low temperature followed by distillation.
[Waste Disposal]

Incineration with added solvent. Consult with environmental regulatory agencies for guidance on acceptable disposal practices. Generators of waste containing this contaminant (≥ kg/mo) must conform with EPA regulations governing storage, transpor tation, treatment, and waste disposal.
[Physical properties]

Clear, colorless, fuming liquid with a pungent, penetrating odor. Odor threshold concentration is 49 ppm (quoted, Amoore and Hautala, 1983).
[Occurrence]

Widespread in a large variety of plants; reported identifed in Cistus labdanum and the oil of Artemisia trans- iliensis; also found among the constituents of petit grain lemon and bitter orange essential oil; reported found in strawberry aroma Reported found in apple, sweet cherry, papaya, pear, raspberry, strawberry, peas, cheeses, breads, yogurt, milk, cream, buttermilk, raw fsh, cognac, rum, whiskey, cider, white wine, tea, coffee and roasted chicory root
[History]

Formic acid is taken from the Latin word forant, formica. Naturalists had observed the acrid vapor from ant hills for hundreds of years. One of the earliest descriptions of formic acid was reported in an extract of a letter written from John Wray (1627–1705) to the publisher of Philosophical Transactions published in 1670. Wray’s letter reported on “uncommon Observations and Experiments made with an Acid Juyce to be Found in Ants” and noted the acid was previously obtained by Samuel Fisher from the dry distillation of wood ants. Formic acid is found in stinging insects, plants, unripe fruit, foods, and muscle tissue. J?ns Jacob Berzelius (1779–1848) characterized formic acid in the early 19th century, and it wasfirst synthesized from hydrocyanic acid by Joseph Louis Gay-Lussac (1778–1850) at about the same time. A number of synthetic preparations of formic acid were found in the first half of the 19th century. Marcellin Berthelot (1827–1907) discovered a popular synthesis using oxalic acid and glycerin in 1856; he and several other chemists from his period found syntheses of formic acid by heating carbon monoxide in alkaline solutions.
[Definition]

ChEBI: Formic acid(64-18-6) is the simplest carboxylic acid, containing a single carbon. Occurs naturally in various sources including the venom of bee and ant stings, and is a useful organic synthetic reagent. Principally used as a preservative and antibacterial agent in livestock feed. Induces severe metabolic acidosis and ocular injury in human subjects. It has a role as an antibacterial agent, a protic solvent, a metabolite, a solvent and an astringent. It is a conjugate acid of a formate.
[Production Methods]

Formic acid is manufactured as a by-product of the liquidphase oxidation of hydrocarbons to acetic acid. It is also produced by (a) treating sodium formate and sodium acid formate with sulfuric acid at low temperatures followed by distillation or (b) direct synthesis from water and CO2 under pressure and in the presence of catalysts.
[Reactions]

Formic acid solution reacts as follows: (1) with hydroxides, oxides, carbonates, to form formates, e.g., sodium formate, calcium formate, and with alcohols to form esters; (2) with silver of ammonio-silver nitrate to form metallic silver; (3) with ferric formate solution, upon heating, to form red precipitate of basic ferric formate; (4) with mercuric chloride solution to form mercurous chloride, white precipitate; and (5) with permanganate (in the presence of dilute H2SO4) to form CO2 and manganous salt solution. Formic acid causes painful wounds when it comes in contact with the skin. At 160 °C, formic acid yields CO2 plus H2. When sodium formate is heated in vacuum at 300 °C, H2 and sodium oxalate are formed. With concentrated H2SO4 heated, sodium formate, or other formate, or formic acid, yields carbon monoxide gas plus water. Sodium formate is made by heating NaOH and carbon monoxide under pressure at 210 °C.
[Biotechnological Production]

Formic acid is generally produced by chemical synthesis . However, biotechnological routes are described in literature. First, formic acid could be produced from hydrogen and bicarbonate by whole-cell catalysis using a methanogen. Concentrations up to 1.02 mol.L-1 (47 g.L-1) have been reached within 50 h. Another example is the formation of formic acid and ethanol as co-products by microbial fermentation of glycerol with genetically modified organisms. In small-scale experiments, 10 g.L-1 glycerol has been converted to 4.8 g.L-1 formate with a volumetric productivity of 3.18 mmol.L-1.h-1 and a yield of 0.92 mol formate per mole glycerol using an engineered E. coli strain.
[Taste threshold values]

Taste characteristics at 30 ppm: acidic, sour and astringent with a fruity depth.
[Source]

Formic acid naturally occurs in carrots, soybean roots, carob, yarrow, aloe, Levant berries, bearberries, wormwood, ylang-ylang, celandine, jimsonweed, water mint, apples, tomatoes, bay leaves, common juniper, ginkgo, scented boronia, corn mint, European pennyroyal, and bananas (Duke, 1992).
Formic acid was formed when acetaldehyde in the presence of oxygen was subjected to continuous irradiation (λ >2200 ?) at room temperature (Johnston and Heicklen, 1964).
Formic acid was identified as a constituent in a variety of composted organic wastes. Detectable concentrations were reported in 16 of 21 composts extracted with water. Concentrations ranged from 0.02 mmol/kg in a sawdust + dairy cattle manure to 30.65 mmol/kg in fresh dairy manure. The overall average concentration was 9.64 mmol/kg (Baziramakenga and Simard, 1998).
[Environmental Fate]

Biological. Near Wilmington, NC, organic wastes containing formic acid (representing 11.4% of total dissolved organic carbon) were injected into an aquifer containing saline water to a depth of about 1,000 feet. The generation of gaseous components (hydrogen, nitrogen, hydrogen sulfide, carbon dioxide, and methane) suggested that formic acid and possibly other waste constituents were anaerobically degraded by microorganisms (Leenheer et al., 1976).
Heukelekian and Rand (1955) reported a 5-d BOD value of 0.20 g/g which is 57.1% of the ThOD value of 0.83 g/g.
Photolytic. Experimentally determined rate constants for the reaction of formic acid with OH radicals in the atmosphere and aqueous solution were 3.7 x 10-13 and 2.2 x 10-13 cm3/molecule? sec, respectively (Dagaut et al., 1988).
Chemical/Physical. Slowly decomposes to carbon monoxide and water. At 20 °C, 0.06 g of water would form in 1 yr by 122 g formic acid. At standard temperature and pressure, this amount of formic acid would produce carbon monoxide at a rate of 0.15 mL/h. The rate of decomposition decreases with time because the water produced acts as a negative catalyst (Barham and Clark, 1951).
Slowly reacts with alcohols and anhydrides forming formate esters.
At an influent concentration of 1.00 g/L, treatment with GAC resulted in an effluent concentration of 765 mg/L. The adsorbability of the GAC used was 47 mg/g carbon (Guisti et al., 1974).
[storage]

(1) Color Code—White: Corrosive or ContactHazard; Store separately in a corrosion-resistant location.(2) Color Code—Yellow Stripe (strong reducing agent):Reactivity Hazard; Store separately in an area isolated fromflammables, combustibles, or other yellow-coded materials.Prior to working with this chemical you should be trainedon its proper handling and storage. Before entering confinedspace where this chemical may be present, check to makesure that an explosive concentration does not exist. Keep insealed containers in well-ventilated area. Protect from heator flame and materials listed above under“Incompatibilities.” Where possible, automatically pumpliquid from drums or other storage containers to processcontainers.
[Purification Methods]

Anhydrous formic acid can be obtained by direct fractional distillation under reduced pressure, the receiver being cooled in ice-water. The use of P2O5 or CaCl2 as dehydrating agents is unsatisfactory. Reagent grade 88% formic acid can be satisfactorily dried by refluxing with phthalic anhydride for 6hours and then distilling it. Alternatively, if it is left in contact with freshly prepared anhydrous CuSO4 for several days about one half of the water is removed from 88% formic acid; distillation then removes the remainder. Boric anhydride (prepared by melting boric acid in an oven at a high temperature, cooling in a desiccator, and powdering) is a suitable dehydrating agent for 98% formic acid; after prolonged stirring with the anhydride the formic acid is distilled under vacuum. Formic acid can be further purified by fractional crystallisation using partial freezing. [Beilstein 2 IV 3.]
[Toxicity evaluation]

Formic acid toxicity is based on the inhibitory capability of the cytochrome oxidase, a terminal member of the eukaryotic mitochondrial electron transport chain and an integral protein complex of the inner mitochondrial membrane. This enzyme participates in the four-electron reduction of oxygen molecule to water with concomitant synthesis of ATP. Formic acid inhibits the activity of cytochrome oxidase by binding at the sixth coordination position of ferric heme iron. The cytochrome oxidase inhibition by formic acid increases with decreasing pH, suggesting that the active inhibitor is the undissociated acid. The acid is permeable through the inner mitochondrial membrane only in this form. Acidosis may potentiate the inhibition of cellular respiration and hasten the onset of cellular injury. Also the progressive acidosis will induce circulatory failure. This leads to tissue hypoxia and lactic acid production, both of which further increase the acid load, in turn increasing undissociated formic acid. This cycle is termed ‘circulus hypoxicus.’
The acidosis causes, e.g., dilatation of cerebral vessels, facilitation of the entry of calcium ions into cells, loss of lysosomal latency, and deranged production of ATP. The last effect seems to impede parathormone-dependent calcium reabsorption in the kidney tubules. Besides, urinary acidification is affected by formic acid. Its excretion causes continuous recycling of the acid by the tubular cell chloride/formate exchanger, which may partially explain an accumulation of formate in urine.
Material Safety Data Sheet(MSDS)Back Directory
[msds information]

formic acid(64-18-6).msds
Questions And AnswerBack Directory
[General Description]

Formic acid (HCO2H), also called methanoic acid, is the simplest carboxylic acid. Formic acid was first isolated by the distillation of ant bodies and was named after the Latin formica, meaning “ant.” Its proper IUPAC name is now methanoic acid. Industrially, formic acid is produced by treatment of carbon monoxide with an alcohol such as methanol (methyl alcohol) in the presence of a catalyst.
Formic acid is found both naturally occurring and frequently synthesized in laboratories. It is most naturally found in the stings and bites of many insects, including bees and ants, as a chemical defense mechanism.
formic acid structure
formic acid structure
[Properties]

FORMIC ACID is a colorless liquid with a pungent odor. It is a stable corrosive, combustible, and hygroscopic chemical substance. It is incompatible with H2SO4, strong caustics, furfuryl alcohol, hydrogen peroxide, strong oxidisers, and bases and reacts with strong explosion on contact with oxidising agents.
Due to the −CHO group, Formic acid imparts some of the character of an aldehyde. It can form salt and ester; can react with amine to form amide and to form ester by addition reaction with unsaturated hydrocarbon addition. It can reduce the silver ammonia solution to produce a silver mirror, and make the potassium permanganate solution fade, which can be used for the qualitative identification of formic acid.
As a carboxylic acid, formic acid shares most of the same chemical properties in reacting with alkalis to form water soluble formate. But formic acid is not a typical carboxylic acid as it can react with alkenes to form formate esters.
[Production]

  • Since 1896, Formic acid is made in European countries by the action of sulfuric acid upon sodium formate, which is produced from carbon monoxide and sodium hydroxide.
production of Formic acid
  • In 1980, the United States Science and Design Corporation developed a carbonylation of methanol to produce formic acid with an annual output of 20,000 tons. The reaction formula is:
    production of Formic acid
  • The mixture of liquid ammonia and methanol is used to absorb carbon monoxide at 70 ° C and 32.5 MPa to form formamide, which is then hydrolyzed in an aqueous acid solution.
  • Use oxalic acid and glycerol as raw materials being co-heated at 110 ° C to generate oxalic acid monoglyceride. Heat it to decarboxylate and form Monoglycerides formate, then hydrolyze it to obtain formic acid.
  • After the formic acid aqueous solution is obtained, a dehydrating agent (for anhydrous magnesium sulfate, anhydrous copper sulfate, etc.), extractive distillation (extracting agent may be trimethylamine, picoline, etc.) may be used for dehydration and purification, and anhydrous formic aic can be obtained.
Spectrum DetailBack Directory
[Spectrum Detail]

Formic acid(64-18-6)MS
Formic acid(64-18-6)1HNMR
Formic acid(64-18-6)13CNMR
Formic acid(64-18-6)IR1
Formic acid(64-18-6)Raman
Well-known Reagent Company Product InformationBack Directory
[Acros Organics]

Formic acid, for analysis, 99+%(64-18-6)
[Alfa Aesar]

Formic acid, ACS, 96+%(64-18-6)
[Sigma Aldrich]

64-18-6(sigmaaldrich)
[TCI AMERICA]

Formic Acid  [for LC-MS],>98.0%(GC)(64-18-6)
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