Synthetic Organic Chemistry

Synthetic organic chemistry is a branch of chemistry focused on the design and construction of organic molecules through controlled chemical reactions. This field plays a crucial role in the development of pharmaceuticals, agrochemicals, polymers, and advanced materials. At CymitQuimica, we offer a comprehensive range of high-purity reagents, catalysts, and building blocks essential for synthetic organic chemistry. Our catalog includes a variety of functionalized compounds, protecting groups, chiral auxiliaries, and coupling reagents, all meticulously tested for quality and consistency. By providing top-quality materials, we support researchers and industry professionals in achieving precise and efficient synthetic transformations, facilitating the discovery and development of innovative chemical entities and complex organic structures. Our products enable advancements in medicinal chemistry, material science, and chemical biology, driving progress in both research and industrial applications.

4-Amino-4-cyanopiperidine, N1-BOC protected

CAS:

• 331281-25-5

Versatile small molecule scaffold

Formula: C₁₁H₁₉N₃O₂

Purity: Min. 95%

Molecular weight: 225.29 g/mol

Tetracyanoethylene

CAS:

• 670-54-2

Used for post-functional addition to polyphenylacetylene derivatives

Formula: C₆N₄

Color and Shape: White Powder

Molecular weight: 128.09 g/mol

Methyl 4-cyanobicyclo[2.2.2]octane-1-carboxylate

CAS:

• 54202-05-0

Versatile small molecule scaffold

Formula: C₁₁H₁₅NO₂

Purity: Min. 95%

Molecular weight: 193.24 g/mol

Potassium tetracyanoplatinate(II)

Controlled Product

CAS:

• 562-76-5

Potassium tetracyanoplatinate(II) is a metal-organic framework that has been synthesized by the layer-by-layer self-assembly of potassium ions and cyanide anions. It can reversibly bind to anions such as chloride, sulfate, nitrate, and phosphate. The structural biology of this material was investigated using X-ray diffraction data in combination with electron microscopy techniques. The salt form of potassium tetracyanoplatinate(II) has been found to be stable up to 100 °C. Potassium tetracyanoplatinate(II) has shown antimicrobial properties against Bordetella pertussis.

Formula: C₄K₂N₄Pt

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 377.35 g/mol

Methyl 3-cyano-4-methylbenzoate

CAS:

• 35066-32-1

Versatile small molecule scaffold

Formula: C₁₀H₉NO₂

Purity: Min. 95%

Molecular weight: 175.18 g/mol

Ethyl 6-cyanoimidazo[1,2-a]pyridine-2-carboxylate

CAS:

• 214958-33-5

Versatile small molecule scaffold

Formula: C₁₁H₉N₃O₂

Purity: Min. 95%

Molecular weight: 215.21 g/mol

Acetic acid, 2-cyano-, 2-methoxyethyl ester

CAS:

• 10258-54-5

2-Cyano-2-methoxyethyl acetic acid is a reactive organic solvent that has a boiling point of 152°C. It is soluble in water and has an acidic pH. This compound is used as a monomer, and is also used as an alkylating agent for the synthesis of polymers. 2-Cyano-2-methoxyethyl acetic acid can be copolymerized with other compounds to create a variety of products with different properties. The reaction time depends on the type of product being synthesized, but it typically takes up to 48 hours to complete the reaction. 2-Cyano-2-methoxyethyl acetic acid can react with c1–6 alkyl groups, which may affect its solubility. This compound has a high degree of configurability, which may allow it to be used in more chemical reactions than other organic solvents.

Formula: C₆H₉NO₃

Purity: Min. 95%

Molecular weight: 143.14 g/mol

3-(Isocyanomethyl)pyridine

CAS:

• 58644-55-6

3-(Isocyanomethyl)pyridine is a nucleophilic amine that is used in organic chemistry as a reagent. It can be used either as a primary amine or as an isocyanide, depending on the desired functionality. 3-(Isocyanomethyl)pyridine reacts with electrophiles such as phenols, alcohols, and carboxylic acids to form reactive intermediates. These intermediates are often useful for generating new molecules. 3-(Isocyanomethyl)pyridine is also capable of reacting with primary and secondary amines to yield multigram quantities of products.
3-(Isocyanomethyl)pyridine has been shown to be an innovative chemical that can be used in many different applications.

Formula: C₇H₆N₂

Purity: Min. 95%

Molecular weight: 118.14 g/mol

3-cyano-2-hydroxybenzoicacid

CAS:

• 67127-84-8

Versatile small molecule scaffold

Formula: C₈H₅NO₃

Purity: Min. 95%

Molecular weight: 163.13 g/mol

Ethyl 5-cyano-6-methylnicotinate

CAS:

• 106944-54-1

Versatile small molecule scaffold

Formula: C₁₀H₁₀N₂O₂

Purity: Min. 95%

Molecular weight: 190.2 g/mol

tert-Butyl 4-(4-cyanophenyl)tetrahydro-1(2H)-pyrazinecarboxylate

CAS:

• 186650-98-6

Versatile small molecule scaffold

Formula: C₁₆H₂₁N₃O₂

Purity: Min. 95%

Molecular weight: 287.36 g/mol

7-Amino-6-cyanopyrazolo[1,5-a]pyrimidine

CAS:

• 89975-57-5

Versatile small molecule scaffold

Formula: C₇H₅N₅

Purity: Min. 95%

Molecular weight: 159.15 g/mol

cyanomethanesulfonyl chloride

CAS:

• 27869-04-1

Cyanomethanesulfonyl chloride is the precursor to a series of pharmaceuticals that are tyrosine kinase inhibitors. These compounds inhibit the growth and proliferation of cells by binding to the receptor tyrosine kinase, preventing it from activating and regulating other proteins. Cyanomethanesulfonyl chloride has been shown to inhibit inflammatory bowel disease in animal models. It also inhibits the production of amines and chloride, which may be responsible for its anti-inflammatory effects.

Formula: C₂H₂ClNO₂S

Purity: Min. 95%

Molecular weight: 139.6 g/mol

Benzyl 2-cyanoacetate

CAS:

• 14447-18-8

Benzyl 2-cyanoacetate is an aliphatic hydrocarbon that has been used in the synthesis of various quinoline derivatives. It can be prepared by the reaction of malonic acid with hydrochloric acid, followed by borohydride reduction and the addition of active methylene. Benzyl 2-cyanoacetate is also a precursor to a number of other compounds, including β-amino acids, which are used as pharmaceutical preparations. The chloride ions in benzyl 2-cyanoacetate react with nitro groups to form chloroquinolines. This compound is also an efflux pump inhibitor that blocks bacterial cells from exporting antibiotic molecules out of the cell.

Formula: C₁₀H₉NO₂

Purity: Min. 95%

Molecular weight: 175.19 g/mol

tert-Butyl N-(1-cyano-1-methylethyl)carbamate

CAS:

• 133117-97-2

Versatile small molecule scaffold

Formula: C₉H₁₆N₂O₂

Purity: Min. 95%

Molecular weight: 184.24 g/mol

Ethyl-2-isocyanoacetate

CAS:

• 2999-46-4

Ethyl-2-isocyanoacetate is a chemical substance that is used in organic chemistry as a reagent for the synthesis of esters and amides. It has been shown to have strong antimicrobial activity against bacteria, including methicillin-resistant Staphylococcus aureus. This compound has also been shown to inhibit the growth of skin cancer cells, which may be due to its ability to induce apoptosis. Ethyl-2-isocyanoacetate reacts with nitro groups in proteins and amino acids by replacement of an oxygen atom from the hydroxyl group with a nitrogen atom from the carboxylic acid group. This reaction mechanism is catalyzed by ns3 protease, which is activated by hydrogen peroxide and thioredoxin reductase.

Formula: C₅H₇NO₂

Purity: Min. 95%

Color and Shape: Clear Liquid

Molecular weight: 113.11 g/mol

Methyl 2-cyano-5-fluorobenzoate

CAS:

• 606080-43-7

Versatile small molecule scaffold

Formula: C₉H₆FNO₂

Purity: Min. 95%

Molecular weight: 179.15 g/mol

Tris(2-cyanoethyl)phosphine

CAS:

• 4023-53-4

Tris(2-cyanoethyl)phosphine (TCEP) is a metal carbonyl compound that has been used as a reagent in organic chemistry. TCEP is an amphoteric molecule that can react with both acids and bases, and is stable in the pH range of 5 to 9. It has been shown to have anti-inflammatory properties by inhibiting neutrophil migration. TCEP also has biological properties, such as its ability to inhibit the growth of Cryptococcus neoformans. TCEP binds to the mitochondrial membrane potential, which prevents proton leakage through the membrane and inhibits oxidative phosphorylation. TCEP binds strongly to minerals such as sodium salts, which can be used to isolate this molecule from reaction solutions. TCEP can be obtained by laser ablation or X-ray crystallography techniques.

Formula: C₉H₁₂N₃P

Purity: Min. 95 Area-%

Molecular weight: 193.19 g/mol

3-chloro-4-cyanobenzoic acid

CAS:

• 1261685-26-0

Versatile small molecule scaffold

Formula: C₈H₄ClNO₂

Purity: Min. 95%

Molecular weight: 181.58 g/mol

4-Amino-6-bromo-5-cyano-7H-pyrrol[2,3-d]pyrimidine

CAS:

• 19393-83-0

4-Amino-6-bromo-5-cyano-7H-pyrrol[2,3-d]pyrimidine is a synthetic compound that can inhibit the growth of tumor cells by preventing RNA replication. It has been shown to be an efficient method for screening potential antitumor agents. 4AB5C7H is extracted from the tumor cell lines and catalyzed by a variety of enzymes. The debromination process yields high yields of 4AB5C7H, which can be used as a potential inhibitor in cancer therapy.

Purity: Min. 95%