Cyano-, Nitrile-

Cyano and nitrile compounds are organic molecules that contain cyano (C≡N) or nitrile groups in their structure, characterized by the presence of nitrogen. These groups play important roles in various chemical reactions and industrial applications. In this category, you will find a wide range of cyano and nitrile compounds, ranging from simple to complex structures. At CymitQuimica, we offer high-quality cyano and nitrile compounds tailored to meet research and industrial needs. Our compounds are suitable for a variety of synthesis and analytical applications.

2,2'-(Perchloro-1,2-phenylene)diacetonitrile

CAS:

• 60069-96-7

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Formula: C₁₀H₄Cl₄N₂

Purity: Min. 95%

Molecular weight: 293.96 g/mol

2-Cyano-3,4,5,6-tetrachloropyridine

CAS:

• 17824-83-8

2-Cyano-3,4,5,6-tetrachloropyridine is a genotoxic compound that is used for the preparation of picolinic acid. It has been shown to induce DNA damage and cytotoxicity in vitro. The reaction products of this compound have also been found to be genotoxic in vitro and in vivo. This chemical has been shown to inhibit the growth of cells in culture as well as cause cell death by releasing hydrogen chloride gas. 2-Cyano-3,4,5,6-tetrachloropyridine is a potent mutagen and carcinogen that can be activated by fluorine or chlorine compounds. This chemical can also form chlorinated derivatives with chlorine. 2-Cyano-3,4,5,6-tetrachloropyridine reacts with phosphorus pentachloride to produce hydrogen chloride gas and other reaction products such as chloride (Cl) or sublimed (P

Formula: C₆Cl₄N₂

Purity: Min. 95%

Molecular weight: 241.89 g/mol

3,5-Bis(trifluoromethyl)phenylacetonitrile

CAS:

• 85068-32-2

3,5-Bis(trifluoromethyl)phenylacetonitrile (3,5-BTFAPN) is a compound that has anticancer activity. It can be used to treat cancer by inhibiting the growth of cancer cells. 3,5-BTFAPN has been shown to be effective against some human cancer cell lines in vitro and in vivo. The drug was found to have cytotoxic effects by inducing apoptosis through changes in mitochondrial membrane potential and cytochrome c release. 3,5-BTFAPN also binds to DNA and forms adducts with guanine residues, which may explain its anticancer activity.

Formula: C₁₀H₅F₆N

Purity: Min. 98 Area-%

Color and Shape: Colorless Yellow Clear Liquid

Molecular weight: 253.14 g/mol

N-Allyl-n-(2-chloro-5-cyanophenyl)acetamide

CAS:

• 207992-39-0

N-Allyl-n-(2-chloro-5-cyanophenyl)acetamide is a fine chemical that is used as a building block in the synthesis of other compounds. It is also used in research and as a reagent or speciality chemical. N-Allyl-n-(2-chloro-5-cyanophenyl)acetamide has been shown to be an excellent intermediate for complex organic reactions, such as coupling reactions with amines, alcohols, and thiols. In addition, this compound can be used to form new scaffolds for biological studies.

Formula: C₁₂H₁₁ClN₂O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 234.68 g/mol

4-Bromo-3-cyanoanisole

CAS:

• 138642-47-4

4-Bromo-3-cyanoanisole is a potent inhibitor of the tyrosine kinase receptor. The functional theory behind this drug's mechanism of action is that it binds to the ATP binding site of the receptor and blocks ATP from binding, preventing downstream signaling. 4-Bromo-3-cyanoanisole has been shown to be an effective inhibitor of cancer cell proliferation. This drug has also been shown to inhibit microtubule assembly and disrupt cellular function by inhibiting protein synthesis.

Formula: C₈H₆BrNO

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 212.04 g/mol

Fmoc-b-cyano-L-alanine

CAS:

• 127273-06-7

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Formula: C₁₉H₁₆N₂O₄

Purity: Min. 95%

Molecular weight: 336.34 g/mol

Ethyl-2-ethoxy-1-[[(2'-cyanobiphenyl-4-yl) methyl] benzimidazole-7-carboxylate

CAS:

• 139481-41-7

Candesartan is a selective angiotensin II receptor antagonist that inhibits the binding of angiotensin II to its receptors, which in turn decreases the activity of angiotensin-converting enzyme. Candesartan cilexetil is an ester prodrug that has been shown to be effective in the treatment of high blood pressure. In the crystalline form, candesartan cilexetil is a white powder with a melting point of 130–135 °C and a solubility in water of >1 g/L. The molecular weight of candesartan cilexetil is 393.8 g/mol and it has a molecular formula C17H21NO2S. The chemical structure consists of two benzimidazole rings coupled together through an ethyl-2-ethoxy linker and attached to a carboxylate group on one end and an amide group on the other

Formula: C₂₆H₂₃N₃O₃

Purity: Min. 95%

Molecular weight: 425.48 g/mol

[4-(1-Cyano-1-methylethyl)phenyl]boronic acid

CAS:

• 850568-67-1

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Formula: C₁₀H₁₂BNO₂

Purity: Min. 95%

Molecular weight: 189.02 g/mol

Angiotensin I-Converting Enzyme (ACE) Inactivator Cyanoac-Phe-Phe-OH

CAS:

• 144085-32-5

Cyanoac-Phe-Phe-OH is a hydrolytic enzyme that irreversibly inactivates the ACE enzyme. It acts as an inhibitor of angiotensin-converting enzyme and inhibits the conversion of angiotensin I to angiotensin II, which is involved in blood pressure regulation. Cyanoac-Phe-Phe-OH has been shown to be more potent than captopril, another ACE inhibitor. It also has a longer half life and greater selectivity for ACE over other serine proteases.

Formula: C₂₁H₂₁N₃O₄

Purity: Min. 95%

Molecular weight: 379.41 g/mol

2-Chlorobenzonitrile

CAS:

• 873-32-5

2-Chlorobenzonitrile is a white solid that is soluble in organic solvents. It is an aryl halide and has a chemical structure of C6ClCN. 2-Chlorobenzonitrile is used as a raw material for the production of dyes and pharmaceuticals. This compound reacts with hydrochloric acid to form 4-chlorobenzonitrile, which can be used in the synthesis of other chemicals. 2-Chlorobenzonitrile can also react with n-dimethyl formamide in an optimal reaction solution to form 4-chlorobenzonitrile. The FTIR spectroscopy on this compound shows that it has a chloride group at 795 cm−1. The optimum reaction temperature for this compound is between 100 and 120 °C, but it will react with inorganic acids such as sulfuric acid or phosphoric acid at higher temperatures. Synthesis of this compound can be done by reacting

Formula: C₇H₄ClN

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 137.57 g/mol

4-Isopropylphenylacetonitrile

CAS:

• 4395-87-3

4-Isopropylphenylacetonitrile is a nicotinic receptor agonist. It has high affinity for the nicotinic acid receptor, and potentiates the response to other nicotinic receptor agonists. 4-Isopropylphenylacetonitrile was discovered by screening for acid binding compounds and allosteric potentiators of the nicotinic acid receptor. This compound binds to the ion channel in the central nervous system, which leads to increased neuronal excitability and decreased pain sensation. 4-Isopropylphenylacetonitrile also displays antiinflammatory properties due to its ability to inhibit prostaglandin synthesis.

Formula: C₁₁H₁₃N

Purity: Min. 95%

Molecular weight: 159.23 g/mol

Ethyl 2,3-dicyanopropionate

CAS:

• 40497-11-8

Ethyl 2,3-dicyanopropionate is a white crystalline solid that is soluble in organic solvents. It has the molecular formula CHClNOS and the molecular weight of 138.1 g/mol. This compound has a melting point of 92 °C and can be purchased as a mixture of cis and trans isomers. The cis form melts at 93 °C and the trans form melts at 88 °C. Ethyl 2,3-dicyanopropionate is synthesized from chlorobenzene by dehydrating it with hydrochloric acid in an organic solvent. It can also be prepared by reacting ethyl cyanoacetate with ammonia in an inert atmosphere. Impurities may include chloride, sulfoxide, or imine.

Formula: C₇H₈N₂O₂

Purity: Min. 95%

Molecular weight: 152.15 g/mol

N-(4-Chlorophenyl)-2-cyanoacetamide

CAS:

• 17722-17-7

N-(4-Chlorophenyl)-2-cyanoacetamide is a pyridine compound that can be synthesized from chloroacetonitrile and acetamide. It has been shown to react with an active methylene group in benzene or pyridine to produce a heterocycle. This reaction is reversible and can be used as a preparative method for the synthesis of heterocycles. The 1,3-dipolar cycloaddition of N-(4-chlorophenyl)-2-cyanoacetamide with nitro groups in nitrobenzene produces the corresponding 2-nitropyridines, which are important intermediates in the synthesis of other heterocycles. N-(4-Chlorophenyl)-2-cyanoacetamide has been used as an efficient method for the preparation of nitrogen nucleophiles that are useful for catalysis.

Formula: C₉H₇ClN₂O

Purity: Min. 95%

Molecular weight: 194.62 g/mol

2,3-(Dimethoxyphenyl)acetonitrile

CAS:

• 4468-57-9

2,3-(Dimethoxyphenyl)acetonitrile is a chemical intermediate that is used in the synthesis of pharmaceuticals and specialty chemicals. It can be used as a reaction component and reagent for the synthesis of other chemicals. This compound has a high quality and is also a versatile building block for complex compounds. 2,3-(Dimethoxyphenyl)acetonitrile has been shown to be useful in the production of fine chemicals such as pharmaceuticals, agrochemicals, and dyes. The CAS number for this compound is 4468-57-9.

Formula: C₁₀H₁₁NO₂

Purity: Min. 95%

Molecular weight: 177.2 g/mol

p-(Methylthio)phenylacetonitrile

CAS:

• 38746-92-8

p-(Methylthio)phenylacetonitrile (p-MTPA) is a synthetic analgesic that belongs to the group of benzyl derivatives. It has analgesic, antiinflammatory and antipyretic properties. p-MTPA is used in organic synthesis as a hydrolysis reagent for benzyl halides. The drug has been shown to be an inhibitor of cyclooxygenase-2 (COX-2) and exerts its effects by decreasing prostaglandin production. P-MTPA is also decarboxylated to produce benzoic acid and phenylacetic acid, which have acidic properties.

Formula: C₉H₉NS

Purity: Min. 95%

Molecular weight: 163.24 g/mol

1-Boc-5-Cyano-3-hydroxymethylindole

CAS:

• 914349-11-4

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Formula: C₁₅H₁₆N₂O₃

Purity: Min. 95%

Molecular weight: 272.3 g/mol

1,6-Bis(cyano-guanidino)hexane

CAS:

• 15894-70-9

1,6-Bis(cyano-guanidino)hexane is a bactericidal agent that can be used to remove bacteria from water. The compound has been shown to have a bactericidal activity against Gram-positive and Gram-negative bacteria in concentrations of 100 mg/L and 200 mg/L, respectively. 1,6-Bis(cyano-guanidino)hexane has also been shown to be effective against industrial strains of Bacillus subtilis and Pseudomonas aeruginosa in concentrations of 200 mg/L. This compound is soluble in organic solvents but insoluble in deionized water. It has a viscosity of 30000 cP at 20°C and an anion charge of -1.

Formula: C₁₀H₁₈N₈

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 250.3 g/mol

3-Cyanopropanoic acid

CAS:

• 16051-87-9

3-Cyanopropanoic acid is a reactive compound that forms a complex with palladium. It is produced by the reaction of acrylonitrile and chloride in the presence of a base such as sodium hydroxide. The reaction mechanism is shown below:

Formula: C₄H₅NO₂

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 99.09 g/mol

4-Biphenylacetonitrile

CAS:

• 31603-77-7

Biphenylacetonitrile is an organic compound that belongs to the group of reactive functional groups and is used as a reagent in organic synthesis. It has been shown to inhibit the growth of cancer cells, likely due to its ability to react with sulfamates. Biphenylacetonitrile inhibits the production of the inflammatory mediator nitric oxide by reacting with trifluoroacetic acid, which may be useful for treating inflammatory diseases such as endometriosis. This drug also has an inhibitory effect on fatty acid metabolism and can thus be used for treating diabetes patients.

Formula: C₁₄H₁₁N

Purity: Min. 95%

Molecular weight: 193.24 g/mol

Iminodiacetonitrile

CAS:

• 628-87-5

Iminodiacetonitrile is a chemical compound that is used in wastewater treatment. It is a nitrite-oxidizing agent that reacts with nitrite ion to form nitric acid, which can be then used to oxidize hexamethylenetetramine and iminodiacetic acid to produce ammonia and cyanide ions. Iminodiacetonitrile has an optimum pH of 7.5, so it will not react at higher or lower pH levels. This reaction occurs in the presence of hydroxide solution, hydrochloric acid, and inorganic acids such as sulfuric acid or phosphoric acid. The reaction mechanism for this process is shown below: C6H11N2O2 + HNO3 → C6H11N2O4 + H+ + NO2- C6H11N2O4 → NH3 + HCN

Formula: C₄H₅N₃

Purity: Min. 95%

Color and Shape: Light (Or Pale) Yellow To Brown Solid

Molecular weight: 95.1 g/mol