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.
Found 9618 products of "Cyano-, Nitrile-"
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5-Cyano-DL-tryptophan
CAS:<p>5-Cyano-DL-tryptophan is an antimicrobial peptide that exhibits potent antimicrobial activity against Gram-positive and Gram-negative bacteria. It also has a high affinity for the bacterial ribosome, which leads to inhibition of protein synthesis. 5-Cyano-DL-tryptophan can be synthesized by dehydration of tryptophan in a model system. The molecule is an analog of the natural amino acid tryptophan and has fluorescence properties that are sensitive to hydration levels. 5-Cyano-DL-tryptophan binds to the peptide binding site on the ribosome and induces a frequency shift in its fluorescence emission spectrum when bound. This property makes it a useful tool for studying peptide binding sites on the ribosome.</p>Formula:C12H11N3O2Purity:Min. 95%Color and Shape:Yellow PowderMolecular weight:229.23 g/mol3-Amino-4-methylbenzonitrile
CAS:<p>3-Amino-4-methylbenzonitrile is an organic compound that is produced by the oxidative dehydrogenation of 3,4-dimethylaniline. It has been shown to undergo a number of reactions, including hydrochloric acid transfer hydrogenation and diazotization. This reaction yields 3-amino-4-methylbenzonitrile, dimethylamine and anilines. The transfer hydrogenation of nitroarenes with 3-amino-4-methylbenzonitrile gives 3-(3,4)-diaminobenzonitrile and 2,6-dinitrotoluene. The optimization of this reaction has led to the discovery of new nitrite derivatives as a result of the addition of nitrite in the presence of 3-amino-4-methylbenzonitrile.</p>Formula:C8H8N2Purity:Min. 95%Color and Shape:PowderMolecular weight:132.16 g/mol7-(Cyanomethoxy)indole
CAS:<p>7-(Cyanomethoxy)indole is a versatile building block that can be used as a scaffold for the synthesis of complex molecules. It has been used as an intermediate in organic synthesis and as a reaction component for the preparation of useful compounds. 7-(Cyanomethoxy)indole is also known to have high quality and is widely used in research laboratories.</p>Formula:C10H8N2OPurity:Min. 95%Molecular weight:172.18 g/mol2-Chloro-5-cyanopyrazine
CAS:<p>2-Chloro-5-cyanopyrazine is a synthetic compound that has been shown to have anti-cancer properties. It is an acceptor molecule that has a nucleophilic character and can react with electrophiles to form covalent bonds. This compound has been shown to selectively inhibit the growth of cancer cells in vitro. The mechanism of action is not yet clear, but it may be due to its ability to induce apoptosis and arrest cell cycle progression at the G1 phase. 2-Chloro-5-cyanopyrazine also has the potential for use as an analytical reagent because of its high solubility in organic solvents. In addition, this compound can be used as a copper donor in reactions involving carboxylic acids or other nucleophiles. <br>2-Chloro-5-cyanopyrazine can be synthesized from benzene and chloropicrin in the presence of copper(II)</p>Formula:C5H2ClN3Purity:Min. 95%Color and Shape:Off-White To Yellow SolidMolecular weight:139.54 g/mol2-Cyanoethyl phosphate barium salt hydrate
CAS:<p>2-Cyanoethyl phosphate barium salt hydrate is an alkaline compound that is soluble in water. It has been used to synthesize phosphodiesters, benzene, dioxan and alcohols. The chemical was originally developed as a reagent for the quantitative conversion of ethyl acetate esters to their corresponding acid chlorides. This reaction can be carried out quantitatively in tetrahydrofuran at room temperature with yields of about 95%. 2-Cyanoethyl phosphate barium salt hydrate also converts alcohols to their corresponding monophosphates quantitatively in alkaline conditions. Crystalline forms are obtained by reacting the compound with triethylamine and benzene.</p>Formula:C3H6BaNO4P•xH2OPurity:Min. 95%Color and Shape:PowderMolecular weight:324.42 g/mol[3-(2-Methylphenyl)-1,2,4-oxadiazol-5-yl]acetonitrile
CAS:<p>Please enquire for more information about [3-(2-Methylphenyl)-1,2,4-oxadiazol-5-yl]acetonitrile including the price, delivery time and more detailed product information at the technical inquiry form on this page</p>Formula:C11H9N3OPurity:Min. 95%Color and Shape:PowderMolecular weight:199.21 g/mol2-Methoxyphenylacetonitrile
CAS:<p>2-Methoxyphenylacetonitrile is a chemical that is used in the manufacture of pharmaceuticals. It has antibacterial activity and can be used to treat typhoid fever, staphylococcal infections, and mental disorders such as schizophrenia. 2-Methoxyphenylacetonitrile is an alkylating agent that reacts with nucleophiles in proteins, DNA, and RNA. These reactions lead to the destruction of the bacterial cell wall and inhibition of protein synthesis. The mechanism by which 2-methoxyphenylacetonitrile exerts its antibacterial effect may involve formation of a reactive intermediate that inhibits bacterial ribonucleotide reductase. The addition of an electron to this intermediate leads to the formation of a covalent bond with one or more amino acids in the protein acceptor, thereby preventing further growth and division of bacteria.</p>Formula:C9H9NOPurity:Min. 90%Color and Shape:White PowderMolecular weight:147.17 g/mol2-Amino-5-chlorobenzonitrile
CAS:<p>2-Amino-5-chlorobenzonitrile is a potent inhibitor of butyrylcholinesterase (BChE) and has been shown to inhibit the activity of this enzyme in cell lung cancer and muscle. 2-Amino-5-chlorobenzonitrile also inhibits the activity of other enzymes, such as acetylcholinesterase (AChE) and phosphatidylcholine esterase (PCE), that are found in the membranes of cells. This inhibition leads to increased levels of acetylcholine in the synaptic cleft, which may lead to an increase in muscular contractions. 2-Amino-5-chlorobenzonitrile is also a product yield enhancer for chromene synthesis.</p>Formula:C7H5ClN2Purity:Min. 95%Color and Shape:PowderMolecular weight:152.58 g/mol3-Acetylbenzonitrile
CAS:<p>3-Acetylbenzonitrile is an isomeric, asymmetric synthesis that has been synthesised in the presence of copper complex and salicylic acid. The reaction was carried out with a gaseous phase, where the chalcone was formed. The experimental techniques used were cross-coupling reactions and molecular modeling techniques. 3-Acetylbenzonitrile has been synthesised by a rationalized enthalpic approach that includes alcohol dehydrogenases and molecular modeling techniques.</p>Formula:C9H7NOPurity:Min. 95%Color and Shape:PowderMolecular weight:145.16 g/mol4-Cyano-2-fluorobenzoic acid methyl ester
CAS:<p>4-Cyano-2-fluorobenzoic acid methyl ester is a versatile building block for complex compounds. It can be used as a reagent to synthesize other compounds and as a speciality chemical with high quality. This chemical is also an intermediate in the synthesis of other compounds, such as 4-cyano-2-fluorobenzoic acid ethyl ester, which has been shown to be useful in the synthesis of β-lactam antibiotics.</p>Formula:C9H6FNO2Purity:Min. 95%Color and Shape:PowderMolecular weight:179.15 g/mol5,6-Diamino-2,3-dicyanopyrazine
CAS:<p>5,6-Diamino-2,3-dicyanopyrazine (5,6-DDA) is a synthetic compound that has been shown to emit in the visible region. The emission spectrum of 5,6-DDA shows three peaks at 599 nm, 614 nm, and 637 nm. The molecular orbitals of 5,6-DDA are calculated to be sp2 hybridized with a singlet ground state. This molecule has been shown to form imines with aniline and pyrrole in the presence of chloride ions. It also forms a zn complex with zinc chloride and nitrate ions. The thermolysis of furyl derivatives produces the corresponding anions. 5,6-DDA can also undergo a photochemical reaction with chlorine gas to form its molecular ion at 637 nm.</p>Formula:C6N4N6Purity:(%) Min. 98%Color and Shape:PowderMolecular weight:160.14 g/mol4-Ethylbenzonitrile
CAS:<p>4-Ethylbenzonitrile is a chemical that is found in human lung. It is a terminal alkene, which undergoes aerobic photooxidation to form reactive oxygen species such as superoxide radical anion and hydrogen peroxide. 4-Ethylbenzonitrile is also converted to triazine, which has been shown to have tumorigenic properties in the lungs of rats and mice. The functional groups on 4-ethylbenzonitrile are amines, hydroxyls, carbonyls, and nitriles. This compound has an inhibitory effect on lung fibroblasts due to its ability to interfere with the function of β-unsaturated ketones. 4-Ethylbenzonitrile's basic structure contains three carbon atoms, two double bonds, and one triple bond.</p>Formula:C9H9NPurity:Min. 95%Color and Shape:Clear LiquidMolecular weight:131.17 g/molEthyl 3-cyanopropanoate
CAS:<p>Ethyl 3-cyanopropanoate is an organic compound with the formula CH3C(O)CH2CN. It is a colorless liquid that boils at 100 °C. It is used in the synthesis of other organic compounds, such as oxazolidinones, cyclopropenes, and quinolizines. The yield can be increased to 98% by using a catalyst such as potassium tert-butoxide or zinc chloride in the reaction. The reaction proceeds through an elimination followed by an acid-catalyzed alkylation to afford the desired product. This process also results in a high yield of ethyl bromoacetate as a side product.</p>Formula:C6H9NO2Purity:Min. 95%Color and Shape:PowderMolecular weight:127.14 g/mol4-Bromobenzylamine
CAS:<p>4-Bromobenzylamine is a chemical compound that has been used to study the process optimization of sephadex g-100. It is also used as a chemotherapeutic treatment for cancer. 4-Bromobenzylamine binds to intracellular targets, such as nitrogen atoms and cell lysis, with physiological levels found in fetal bovine serum. The nitrogen atom is an essential structural component of 4-bromobenzylamine that is necessary for its biological activity and may be involved in binding to DNA polymerase. This drug has been shown to inhibit the growth of metastatic colorectal cancer cells by inhibiting cellular proliferation. Structural analysis has revealed that 4-bromobenzylamine interacts with the polymerase chain reaction (PCR) enzyme and inhibits the ability of DNA polymerases to add nucleotides to the growing strand of DNA.</p>Formula:C7H8BrNPurity:Min. 95%Color and Shape:PowderMolecular weight:186.05 g/molCyanodibenzylamine
CAS:<p>Cyanodibenzylamine is a synthetic, pharmaceutical preparation. It is an amine that undergoes nucleophilic attack by an amide to form a cyanoguanidine. Cyanodibenzylamine can be used as a stabilizer and additive in pharmaceutical preparations. It also has the ability to bind metal hydroxides, which may be due to the presence of basic fibroblast growth factor and isoquinoline compound. Cyanodibenzylamine is also used as a polymerization initiator in organic chemistry, with hydrocarbon solvents such as benzene or toluene as its solvent.</p>Formula:C15H14N2Purity:Min. 95%Color and Shape:PowderMolecular weight:222.29 g/molN-Nitrosodibenzylamine
CAS:<p>N-Nitrosodibenzylamine is a chemical compound that has genotoxic effects. It is used as an analytical method to identify the presence of amines and to measure their concentration, as well as in the preparation of sodium salts. N-Nitrosodibenzylamine was found to cause damage to DNA in animals and cells in culture. The matrix effect, which is the difference in response between a sample contained in an organic solvent and one contained in water, was investigated using multi-walled carbon nanotubes (MWCNTs). The results showed that MWCNTs produce a significant matrix effect when compared with other solvents. This study also showed that MWNTs have a higher capacity for nitrosamine adsorption than do other solvents.</p>Formula:C14H14N2OPurity:Min. 96 Area-%Color and Shape:Off-White PowderMolecular weight:226.27 g/mol4-Fluorobenzylamine
CAS:<p>4-Fluorobenzylamine is a chemical compound with the molecular formula CHF. It has been shown to radiosensitize tumor cells by inhibiting the synthesis of cyclin D2, which is required for cell proliferation. 4-Fluorobenzylamine can also be used in asymmetric synthesis reactions such as nitration and trifluoroacetic acid hydrolysis. 4-Fluorobenzylamine has been shown to have synergistic effects on cells when paired with flupirtine or maleate. This synergistic effect is primarily due to its ability to inhibit DNA repair, which leads to cell death through apoptosis or necrosis.</p>Formula:C7H8FNPurity:Min. 98 Area-%Color and Shape:Colourless To Pale Yellow LiquidMolecular weight:125.14 g/mol(3-Methoxyphenyl)acetonitrile
CAS:<p>3-Methoxyphenylacetonitrile (3MPAN) is a small molecule that has been shown to inhibit the activity of kinases, which are enzymes that transfer phosphate groups from ATP onto other substrates. 3MPAN has been found to be selective for the estrogen receptor alpha (ERα), with little or no effect on ERβ, and shows promise as a potential drug for hormone-dependent breast cancer. It also inhibits fatty acid synthesis and is active against some viruses. 3MPAN binds to the enzyme's ATP binding site and blocks phosphorylation by preventing access of ATP. This prevents DNA synthesis and protein synthesis, leading to cell death.</p>Formula:C9H9NOPurity:Min. 95%Color and Shape:PowderMolecular weight:147.17 g/mol5-Cyano-1H-indole-2-carboxylic acid
CAS:<p>5-Cyano-1H-indole-2-carboxylic acid is a high quality reagent that is used as an intermediate in the synthesis of complex compounds. It can also be used as a building block for the synthesis of speciality chemicals and research chemicals. The versatile nature of this compound makes it useful as a reaction component in the synthesis of many different types of compounds, including fine chemicals and pharmaceuticals. 5-Cyano-1H-indole-2-carboxylic acid is available commercially with CAS No. 169463-44-9.</p>Formula:C10H6N2O2Purity:Min. 95%Color and Shape:PowderMolecular weight:186.17 g/mol(Cyanomethyl)urea
CAS:<p>Cyanomethyl)urea is a fine chemical that belongs to a class of compounds known as ureas. It is used as a versatile building block in the synthesis of more complex compounds, as a research chemical and as an intermediate. It can be used to synthesize pharmaceuticals, pesticides, and other chemicals. Cyanomethyl)urea is used in the production of polyurethane foams, which are commonly found in mattresses, furniture upholstery and insulation.</p>Formula:C3H5N3OPurity:Min. 95%Color and Shape:Brown PowderMolecular weight:99.09 g/mol
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