description chemical properties pKa uses Applications in HPLC preparation
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Trifluoroacetic acid

description chemical properties pKa uses Applications in HPLC preparation
Product Name
Trifluoroacetic acid
CAS No.
76-05-1
Chemical Name
Trifluoroacetic acid
Synonyms
TFA;CF3COOH;TRIFLUOROACETATE;Trifluoracetic acid;25ml;WASH BUFFER;trifluoroethanoicacid;Trifluoroethanoic acid;3-(azetidin-3-yloxy)propanoic acid;BUFFER A
CBNumber
CB5127175
Molecular Formula
C2HF3O2
Formula Weight
114.02
MOL File
76-05-1.mol
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Trifluoroacetic acid Property

Melting point:
-15.4 °C (lit.)
Boiling point:
72.4 °C (lit.)
Density 
1.489 g/mL at 20 °C (lit.)
vapor density 
3.9 (vs air)
vapor pressure 
97.5 mm Hg ( 20 °C)
refractive index 
n20/D 1.3(lit.)
Flash point:
None
storage temp. 
Store at +15°C to +25°C.
solubility 
Miscible with ether, acetone, ethanol, benzene, hexane, and CCl<sub>4</sub>
pka
-0.3(at 25℃)
form 
Liquid
Specific Gravity
1.480
color 
Colorless
PH
1 (10g/l, H2O)
Odor
Sharp, pungent odor
PH Range
1
Water Solubility 
miscible
Sensitive 
Hygroscopic
λmax
λ: 260 nm Amax: 0.9
λ: 270 nm Amax: 0.10
λ: 280 nm Amax: 0.05
λ: 290 nm Amax: 0.04
λ: 300 nm Amax: 0.03
λ: 320 nm Amax: 0.025
Merck 
14,9681
BRN 
742035
Dielectric constant
23.7(20℃)
Stability:
Stable. Incompatible with combustible material, strong bases, water, strong oxidizing agents. Non-combustible. Hygroscopic. May react violently with bases.
InChIKey
DTQVDTLACAAQTR-UHFFFAOYSA-N
CAS DataBase Reference
76-05-1(CAS DataBase Reference)
NIST Chemistry Reference
Acetic acid, trifluoro-(76-05-1)
EPA Substance Registry System
Acetic acid, 2,2,2-trifluoro- (76-05-1)
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Safety

Hazard Codes 
C,T,Xi
Risk Statements 
20-35-52/53-34
Safety Statements 
9-26-27-28-45-61-28A-36/37/39
RIDADR 
UN 2699 8/PG 1
WGK Germany 
2
RTECS 
AJ9625000
3
Hazard Note 
Toxic/Corrosive
TSCA 
T
HazardClass 
8
PackingGroup 
I
HS Code 
29159080
Hazardous Substances Data
76-05-1(Hazardous Substances Data)
Toxicity
LD50 i.v. in mice: 1200 mg/kg (Airaksinen, Tammisto)
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Hazard and Precautionary Statements (GHS)

Symbol(GHS)
Signal word
Danger
Hazard statements

H314Causes severe skin burns and eye damage

H332Harmful if inhaled

H412Harmful to aquatic life with long lasting effects

Precautionary statements

P261Avoid breathing dust/fume/gas/mist/vapours/spray.

P273Avoid release to the environment.

P280Wear protective gloves/protective clothing/eye protection/face protection.

P303+P361+P353IF ON SKIN (or hair): Remove/Take off Immediately all contaminated clothing. Rinse SKIN with water/shower.

P305+P351+P338IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do. Continuerinsing.

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N-Bromosuccinimide Price

Sigma-Aldrich
Product number
TX1276
Product name
Trifluoroacetic acid
Purity
HPLC
Packaging
4mL
Price
$166
Updated
2024/03/01
Sigma-Aldrich
Product number
TX1276
Product name
Trifluoroacetic acid
Purity
HPLC
Packaging
250ML
Price
$219
Updated
2024/03/01
Sigma-Aldrich
Product number
TX1276
Product name
Trifluoroacetic acid
Purity
HPLC
Packaging
1L
Price
$573
Updated
2024/03/01
Sigma-Aldrich
Product number
TX1276
Product name
Trifluoroacetic acid
Purity
HPLC
Packaging
2.5L
Price
$1330
Updated
2024/03/01
Sigma-Aldrich
Product number
TX1275
Product name
Trifluoroacetic acid
Purity
Meets Reagent Specifications for testing USP/NF monographs
Packaging
70mL
Price
$87.4
Updated
2024/03/01
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Trifluoroacetic acid Chemical Properties,Usage,Production

description

Trifluoroacetic acid (TFA, molecular formula: CF3COOH) is a kind of colorless, volatile and fuming liquid with a similar odor as acetic acid. It is hygroscopic and has irritating odor. It has strong acidic property due to being affected by the electron-attracting trifluoromethyl group with its acidicity being 100000 higher than acetic acid. It has a melting point being-15.2 ℃, boiling point being 72.4 ℃, and the density being 1.5351g/cm3 (1℃). It is miscible with water, fluorinated hydrocarbons, methanol, ethanol, ethyl ether, acetone, benzene, carbon tetrachloride, and hexane; it is partially soluble in carbon disulfide and alkane containing more than six carbons. It is an excellent solvent of protein and polyester.

Trifluoroacetic acid is also a good solvent for the organic reaction which allows obtaining certain results which are difficult in the cases of application of common solvents. For example, when quinolone is being catalyzed for hydrogenation in a common solvent, the pyridine ring is preferentially hydrogenated; in contrast, the benzene ring will be preferentially hydrogenated in the presence of trifluoroacetic acid as the solvent. Trifluoroacetic acid is decomposed into carbon dioxide and fluorine in the presence of aniline. It can be reduced by sodium borohydride or lithium aluminum hydride into trifluoroacetic acetaldehyde and trifluoro-ethanol. It is stable at temperature higher than 205 ℃ stable. But its ester and amides derivatives are easily subject to hydrolysis which allows them to prepare carbohydrate, amino acids, and peptide derivative in the form of acid or anhydride. It is easily to be dehydrated under action of phosphorus pentoxide and be converted to trifluoroacetic anhydride.
Trifluoroacetic acid is a kind of important intermediates of fat fluorine. Owing to the special structure of trifluoromethyl, it has a different property from other alcohols and can participate in a variety of organic reactions, especially being used in the field of the synthesis of fluorine-containing pharmaceutical, pesticides and dyes. Its domestic and foreign demand is increasing and has become one of the important intermediates for fluorine-containing fine chemicals.

chemical properties

It is colorless, volatile fuming liquid with a similar odor as acetic acid. It is hygroscopic and has stimulating smell. It is miscible with water, fluorinated alkanes, methanol, benzene, ether, carbon tetrachloride and hexane. It can partially dissolve alkane with over six carbons as well as carbon disulfide.

pKa

Trifluoroacetic acid (TFA) is a kind of strong acid with its pKa being 0.23. It can stimulate the body tissue and skin. However, it is only slightly toxic. However, its enrichment in immobilizing surface water will affect agriculture and aquatic systems. Moreover, TFA can generate greenhouse gases CHF3 after undergoing the microbial degradation.
The above information is edited by the chemicalbook of Dai Xiongfeng.

uses

Trifluoroacetic acid is mainly for the production of new pesticide, medicine and dyes, and also has great potential of application and development in the fields of materials and solvents. Trifluoroacetic acid is mainly used for the synthesis of various kinds of trifluoromethyl group or heterocyclic containing herbicides. It is currently available for synthesizing various kinds of novel herbicide containing pyridyl and qunoilyl; acting as a strong proton acid, it is widely applied as the catalyst for alkylation, acylation, and olefin polymerization of aromatic compound; as a solvent, trifluoroacetic acid is a kind of excellent solvent for fluorination, nitration and halogenations. In particular, the excellent protective effect of its trifluoroacetyl derivatives on hydroxy and amino group has very important application in the synthesis of amino acid and poly-peptide synthesis, for example, the compound can be used as the protection agent of tert-butoxycarbonyl (t-boc) which is used for removing amino acids during the synthesis of poly-peptide. Trifluoroacetic acid, as the raw material and modifier for the preparation of the ion membrane, can largely improve the current efficiency of soda industry and significantly extend the working life of the membrane; trifluoroacetic acid can also be used for synthesizing trifluoro-ethanol, trifluoroacetic acetaldehyde and trifluoroacetic anhydride. At room temperature, the mercury trifluoroacetic acid can have mercury-fluorophenyl be able to have mercuration reaction (electrophilic substitution), and can also convert hydrazone to diazo compound. The lead salt of this acid can convert arene to phenol.
In the experiment of reverse phase chromatography for isolation of peptides and proteins, using trifluoroacetic acid (TFA) as the ion-pairing reagents is a common approach. Trifluoroacetic acid in the mobile phase can improve the peak shape and overcome the problem of the peak broadening and trailing issue through interaction with hydrophobic bonded phase and residual polar surface in a variety of models. Trifluoroacetic acid has an advantage over other ion modifier due to that it is volatile and can be easily removed from the sample preparation. On the other hand, the maximum UV absorption peak of trifluoroacetic acid is less than 200 nm, and thus having very small interference on the detection of polypeptides at low wavelengths.

Applications in HPLC

In the experiment of reverse phase chromatography for isolation of peptides and proteins, using trifluoroacetic acid (TFA) as the ion-pairing reagents is a common approach. Trifluoroacetic acid in the mobile phase can improve the peak shape and overcome the problem of the peak broadening and trailing issue through interaction with hydrophobic bonded phase and residual polar surface in a variety of models. Trifluoroacetic acid can bind to the positive charge and polar groups on the polypeptide in order to reduce the polar retention, and bring the polypeptide back to the hydrophobic inverting surface. With the same way, trifluoroacetate shield the residual polar surface in fixed phase. The behavior of TFA can be understood as it stuck in the phase surface of the reverse phase fixed phase, while having interaction with the polypeptide and column bed.
Trifluoroacetic acid has an advantage over other ion modifier due to that it is volatile and can be easily removed from the sample preparation. On the other hand, the maximum UV absorption peak of trifluoroacetic acid is less than 200 nm, and thus having very small interference on the detection of polypeptides at low wavelengths.
Varying the concentration of trifluoroacetic acid can slightly adjust the selectivity of polypeptide on reverse phase chromatography. The impact is very useful for optimizing separation conditions, increasing the amount of information contained in complex chromatography assay (such as the fingerprint of polypeptide).
Trifluoroacetic acid was added to the mobile phase in a general concentration of 0.1%. At this concentration, most of the reversed-phase column can produce good peak shape. In contrast, if the concentration of trifluoroacetic acid is significantly below this level, the peak broadening and tailing would become very obvious.
Trifluoroacetic acid has a good efficacy in the separation of proteins and other macromolecules. However, during the actual usage, we have a difficult time in controlling TFA concentrations because it is a volatile substance. If you configure it for a long time, it will be volatile causing change in the concentration. After completion of preparing it, it must be sealed for prevention of its evaporation.

preparation

Trifluoroacetic acid is an important reagent in organic synthesis. Preparation of trifluoroacetic acid has a variety of routes:
1. Obtain it through the oxidation of 1, 3, 3, 3-trifluoropropene by potassium permanganate.
2. acetic acid (alternatively; acetyl chloride or acetic anhydride) can have electrochemical fluorination with hydrofluoric acid and sodium fluoride and then be hydrolyzed.
3. Trifluoroacetic acid can be obtained by the oxidation of 1, 1, 1-trifluoro-2, 3, 3-trichloropropene through potassium permanganate. This raw material can be made through the Swarts fluorination of hexachloropropylene.
4. Prepared from the oxidation of 2,3-dichloro-hexafluoro-2-butene.
5. Trifluoroacetic acid can be generated by the reaction between trichloro-acetonitrile and hydrogen fluoride, which generates trifluoromethyl acetonitrile, which further undergoes hydrolysis to obtain the product.
6. obtained through the oxidation of benzotrifluoride.

Chemical Properties

Trifluoroacetic acid (TFA) is an analogue of acetic acid with the three hydrogen atoms replaced by three fluorine atoms. It has a vinegar-like odor and is a strong acid, a good solvent and has excellent reactive properties. The specific gravity of liquid TFA is 1.48 and it boils at 72 °C. Trifluoroacetic Acid is a solvent that is used in the production of pharmaceutical and agricultural chemicals as well as in many other specialized applications. Some of the more popular uses for TFA are as a silyl catalyst when derivatizing carbohydrates, as a reagent for purifying large peptides, as an ion pair reagent, and as an LC mobile phase additive.

Uses

Trifluoroacetic acid is an important building block in the synthesis of pharmaceuticals, agrochemicals and performance products. It is a precursor to many fluorinated compounds, and widely used in peptide synthesis and other organic transformations involving deprotection of t-BOC group. The combination of properties like solubility in most of the solvents, volatility, catalytic property, and strong acidity with non-oxidizing nature makes it a widely used reagent in organic synthesis. Trifluoroacetic acid can use as an ion pairing agent in liquid chromatography, as a solvent in NMR spectroscopy and as a calibrant in mass spectrometry. It is used as a catalyst in esterification reaction and condensation reaction and a protective agent for hydroxyl and amino.

Definition

ChEBI: Trifluoroacetic acid is a monocarboxylic acid that is the trifluoro derivative of acetic acid. It has a role as a reagent and a human xenobiotic metabolite. It derives from an acetic acid. It is a conjugate acid of a trifluoroacetate.

Synthesis Reference(s)

The Journal of Organic Chemistry, 26, p. 923, 1961 DOI: 10.1021/jo01062a068

General Description

Trifluoroacetic acid appears as a colorless fuming liquid with a pungent odor. Soluble in water and denser than water. Corrosive to skin, eyes and mucous membranes. Used to make other chemicals and as a solvent.

Air & Water Reactions

Fumes in air. Soluble in water.

Reactivity Profile

Trifluoroacetic acid is a strong acid; attacks many metals [Handling Chemicals Safely 1980. p. 935]. A 30% solution of hydrogen peroxide in Trifluoroacetic acid is often used to destructively oxidize aromatic rings in preference to the side chains. Explosions have occurred, if the excess peroxide is not catalytically destroyed, prior to removal of solvent, [Tetrahedron Lett., 1977, 1703-1704]. The reduction of amides of Trifluoroacetic acid with lithium aluminum hydride are dangerous at all phases of the process, explosions have occurred, [Chem. Eng. News, 1955, 33, 1368].

Health Hazard

Trifluoroacetic acid is a highly corrosive substance. Contact of the liquid with the skin, eyes, and mucous membranes can cause severe burns, and ingestion can result in serious damage to the digestive tract. TFA vapor is highly irritating of the eyes and respiratory tract, and inhalation of high concentrations can lead to severe destruction of the upper respiratory tract and may be fatal as a result of pulmonary edema. Symptoms of overexposure to TFA vapor include a burning feeling, coughing, headache, nausea, and vomiting.
Trifluoroacetic acid has not been found to be carcinogenic or to show reproductive or developmental toxicity in humans.

Fire Hazard

Trifluoroacetic acid is not combustible. Nevertheless, the presence of trifluoroacetic acid at the site of a fire would be of great concern because of its high vapor pressure and extreme corrosiveness. Some are oxidizers and may ignite combustibles (wood, paper, oil, clothing, etc.). Contact with metals may evolve flammable hydrogen gas. Containers may explode when heated.

Biochem/physiol Actions

Trifluoroacetic acid?(TFA) is mainly preferred as an internal chemical shift referencing agent in?19F NMR.

Safety Profile

Poison by ingestion and intraperitoneal routes. Moderately toxic by intravenous route. Mildly toxic by inhalation. A corrosive irritant to skin, eyes, and mucous membranes. When heated to decomposition it emits toxic fumes of F-. Used as a strong organic acid catalyst.

storage

trifluoroacetic acid should be stored in an acid cabinet away from other classes of compounds. Because of its high vapor pressure, fumes of trifluoroacetic acid can destroy labels on other bottles if the container is not tightly sealed.

Purification Methods

The purification of trifluoroacetic acid, reported in earlier editions of this work, by refluxing over KMnO4 for 24hours and slowly distilling has resulted in very SERIOUS EXPLOSIONS on various occasions, but not always. This apparently depends on the source and/or age of the acid. The method is NOT RECOMMENDED. Water can be removed by adding trifluoroacetic anhydride (0.05%, to diminish water content) and distilling. [Conway & Novak J Phys Chem 81 1459 1977]. It can be refluxed and distilled from P2O5. It is further purified by fractional crystallisation by partial freezing and again distilled. Highly TOXIC vapour. Work in an efficient fume hood. [Beilstein 2 IV 458.]

Incompatibilities

Mixing trifluoroacetic acid and water evolves considerable heat.

Waste Disposal

Trifluoroacetic acid and waste material containing this substance should be placed in an appropriate container, clearly labeled, and handled according to your institution's waste disposal guidelines.

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View Lastest Price from Trifluoroacetic acid manufacturers

Hebei Chuanghai Biotechnology Co,.LTD
Product
Trifluoroacetic acid 76-05-1
Price
US $5.00-2.00/KG
Min. Order
1KG
Purity
99%
Supply Ability
10000kg
Release date
2024-08-20
Beijing Sunsoly S&T Co.,Ltd
Product
Trifluoroacetic acid 76-05-1
Price
US $0.00/kg
Min. Order
0.5kg
Purity
99%
Supply Ability
100tons
Release date
2023-07-18
Shaanxi Dideu Medichem Co. Ltd
Product
Trifluoroacetic acid 76-05-1
Price
US $0.10/KG
Min. Order
1KG
Purity
99.0%
Supply Ability
1000 tons
Release date
2020-01-03

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