Non Polar Solvents

Non-polar solvents are a class of solvents that dissolve non-polar compounds due to their low dielectric constants and lack of significant partial charges. They are widely used in various chemical processes and applications, including organic synthesis, extractions, and chromatography. Common non-polar solvents include substances with 6-membered rings and building blocks such as hexane and toluene, which are crucial for dissolving hydrophobic compounds. These solvents play an essential role in the preparation of active pharmaceutical ingredients (APIs) and related research compounds. Additionally, non-polar solvents are utilized in NMR spectroscopy, where they help dissolve non-polar analytes without interfering with the spectral analysis. They are also important in processes involving amino acids, organic chlorinated compounds, and various building blocks. Their effectiveness in dissolving organic compounds makes non-polar solvents indispensable in both laboratory and industrial settings.

p-Toluenesulfonic acid monohydrate

CAS:

• 6192-52-5

p-Toluenesulfonic acid monohydrate is a white, crystalline solid that is soluble in water. It is used as a catalyst for the synthesis of various organic compounds and pharmaceuticals. p-Toluenesulfonic acid monohydrate has been shown to have an effect on the thermal expansion of certain polymers and to be useful for preparation of medicinal preparations with high uptake. This compound can also be used as a carbon source for the production of various organic compounds.

Formula: CH₃C₆H₄SO₃H·H₂O

Color and Shape: Powder

Molecular weight: 190.22 g/mol

3-Bromobenzenesulfonyl chloride

CAS:

• 2905-24-0

3-Bromobenzenesulfonyl chloride is a molecule that can be used to inhibit the uptake of 3-bromobenzoate. The inhibition of uptake is due to the desymmetrization of the unsymmetrical, 3-bromobenzoate. This reaction leads to an increase in the concentration of 3-bromobenzoate. Inhibition studies have shown that 3-bromobenzenesulfonyl chloride has an inhibitory effect on cancer cells and apoptosis pathway. The structural studies have shown that this drug is synthetic and biphenyl can be synthesized from it. T-cell lymphomas have been shown to be inhibited by this drug and heart disease has also been inhibited.

Formula: C₆H₄BrClO₂S

Purity: Min. 95%

Molecular weight: 255.52 g/mol

1-Bromo-2-fluoro-3-nitrobenzene

CAS:

• 58534-94-4

1-Bromo-2-fluoro-3-nitrobenzene is a synthetic chemical that is used as an intermediate in the synthesis of various dyes. It can be obtained by the diazotization of acetyl nitrite and acetonitrile, followed by acetylation with acetic anhydride and hydrolysis with sodium hydroxide. The bromoaniline formed after this reaction is then converted to 1-bromo-2-fluoro-3-nitrobenzene by refluxing it with nitric acid. This chemical can also be synthesized from bromines and chloride in the presence of a diazo salt. It reacts with fluoride or halogens to produce fluorobenzene derivatives, which are used as intermediates for other organic compounds.

Formula: C₆H₃BrFNO₂

Purity: Min. 95%

Color and Shape: Yellow Powder

Molecular weight: 220 g/mol

2-Bromo-1,3,5-triisopropylbenzene

CAS:

• 21524-34-5

2-Bromo-1,3,5-triisopropylbenzene is an ethylene acetal that is prepared by the catalyzed reaction of aryl chlorides and anhydrous zinc bromide in the presence of triethylamine. The selectivities of this method are high because it can produce mainly a single isomer. The stereoselectivity is also high because the reaction proceeds with the formation of only one stereoisomer. The mechanism for this reaction involves a nucleophilic substitution of the halogenated aryl chloride with the trialkylborane, which generates two different products. This product has been used in the synthesis of biphenyls and nitro compounds.

Formula: C₁₅H₂₃Br

Purity: Min. 95%

Color and Shape: Colorless Clear Liquid

Molecular weight: 283.25 g/mol

α-Hydroxy-α-phenylbenzeneacetic acid (3-endo)-8-azabicyclo[3.2.1]oct-3-yl ester hydrochloride

CAS:

• 63516-30-3

Please enquire for more information about alpha-Hydroxy-alpha-phenylbenzeneacetic acid (3-endo)-8-azabicyclo[3.2.1]oct-3-yl ester hydrochloride including the price, delivery time and more detailed product information at the technical inquiry form on this page

Formula: C₂₁H₂₃NO₃·HCl

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 373.87 g/mol

4-Hydroxybenzenesulfonic acid, 65% aqueous solution

CAS:

• 98-67-9

4-Hydroxybenzenesulfonic acid is a chemical compound that is used as an antimicrobial agent in industrial applications. It is commonly used as a corrosion inhibitor, a chelating agent, and an additive for detergents and other cleaning products. 4-Hydroxybenzenesulfonic acid has been shown to inhibit the growth of bacteria by binding to fatty acids in the cell membrane and preventing them from being incorporated into the cell wall. This process causes the cell wall to weaken and eventually rupture. The reaction mechanism of 4-hydroxybenzenesulfonic acid is similar to that of p-hydroxybenzoic acid, which also inhibits bacterial growth by attacking fatty acids in the cell membrane. 4-Hydroxybenzenesulfonic acid may be preferable because it can be produced from renewable sources rather than from petroleum or natural gas.

Formula: C₆H₆O₄S

Purity: 65%Min

Color and Shape: Red Powder

Molecular weight: 174.18 g/mol

1,4-Benzenedicarboxylic acid, monoethyl ester

CAS:

• 713-57-5

1,4-Benzenedicarboxylic acid, monoethyl ester (1,4-BDE) is a monomer that is used in the manufacture of polycarbonates and other plastics. 1,4-BDE is also used as a solvent for xylene and butanol. It has been shown to be useful in the production of polyester fibers. The monomer can be synthesized by reacting ethylene with terephthalic acid or dimethyl terephthalate (DMT). This reaction produces 1,4-BDE and methanol as byproducts. The process is carried out at temperatures of 250 °C to 300 °C and under atmospheric pressure. The purified product can be isolated using distillation or extraction with organic solvents such as benzene or butanol. The reaction can be carried out in the presence of ruthenium, which acts as a catalyst.

Formula: C₁₀H₁₀O₄

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 194.18 g/mol

1-Bromo-4-iodobenzene

CAS:

• 589-87-7

1-Bromo-4-iodobenzene is an aryl halide that can be synthesized by the cross coupling of ethyl formate and hydrochloric acid. This compound is useful in analytical applications, such as chromatographic methods, due to its high solubility in organic solvents. It is also used in synthetic procedures for the preparation of other aryl halides. 1-Bromo-4-iodobenzene has been used to synthesize calcium carbonate via the Suzuki coupling reaction with sodium salts, which are nucleophiles. The carbonyl group on this molecule reacts with the nucleophile, forming an alkyl group and a metal salt. Transfer reactions involving these salts can produce other products with different functional groups.

Formula: C₆H₄BrI

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 282.9 g/mol

1,4-Dicyanobenzene

CAS:

• 623-26-7

1,4-Dicyanobenzene is an organic compound that is used as a reactant in the production of other chemicals. It has been shown to be reactive with nucleophiles such as amines and alcohols. 1,4-Dicyanobenzene has shown good transport properties and can be used in industrial preparation of polymers such as polyurethane. The reaction mechanism for 1,4-dicyanobenzene is nucleophilic attack by a nucleophile on the carbonyl carbon of the double bond. This reaction yields two products: an amide or an aliphatic hydrocarbon. 1,4-Dicyanobenzene can also undergo reactions involving hydrogen bonds with other molecules in order to form new compounds.

Formula: C₈H₄N₂

Purity: Min. 98 Area-%

Color and Shape: Off-White Powder

Molecular weight: 128.13 g/mol

4-Acetamidobenzenesulfonyl azide

CAS:

• 2158-14-7

4-Acetamidobenzenesulfonyl azide (4ABS) is a low detection reagent that can be used for the determination of 4-acetamidobenzoic acid. It reacts with the amine group in 4-acetamidobenzoic acid to form a sulfonamide intermediate and releases an azide ion. The linear calibration curve was obtained using vibrational spectroscopy and has a detection sensitivity of 0.03 ppm. This method can also be used to determine the functional groups present in dopamine, which have been shown to affect electrochemical impedance spectroscopy measurements.

Formula: C₈H₈N₄O₃S

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 240.24 g/mol

N-Fluorobenzenesulfonimide

CAS:

• 133745-75-2

N-Fluorobenzenesulfonimide is an organic compound with the molecular formula CHFNS. It is a fluorinating agent that can be used for the synthesis of organic compounds. N-Fluorobenzenesulfonimide has been shown to have anti-inflammatory properties and has shown promising results in animal studies for the treatment of hepatitis. The mechanism of action is not fully understood, but it may involve the formation of hydrogen bonds between N-fluorobenzenesulfonimide and amino acid residues in proteins, leading to inhibition of protein synthesis.

Formula: C₁₂H₁₀FNO₄S₂

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 315.34 g/mol

Sodium 4-hydroxybenzenesulfonate dihydrate

CAS:

• 10580-19-5

Sodium 4-hydroxybenzenesulfonate dihydrate is a hydrogenated compound with reactive properties. It is used in the production of optical materials and is used to produce hydrogen peroxide, which is a strong oxidizing agent. Sodium 4-hydroxybenzenesulfonate dihydrate has been shown to react with calcium ions to form calcium sulfinates. The luminescence property of this compound can be enhanced by mixing it with other compounds such as x-ray diffraction study, functional groups, or hydrogen peroxide. The reaction time for the formation of sodium 4-hydroxybenzenesulfonate dihydrate can be shortened by adding anions such as sulfamic acid.

Formula: C₆H₅NaO₄S·2H₂O

Purity: Min. 95%

Color and Shape: White To Off-White Solid

Molecular weight: 232.19 g/mol

4-Chlorobenzenethiol

CAS:

• 106-54-7

4-Chlorobenzenethiol is a chemical compound that contains a fatty acid. It is an intramolecular hydrogen donor with the ability to form a disulfide bond. The compound also has high stability and can be used in organic synthesis reactions involving reactive sulfur groups. 4-Chlorobenzenethiol reacts with sodium carbonate to produce sodium thiocarbonate and chloroform, which are then reacted with phosphorus pentoxide for oxidation. The reaction mechanism is similar to that of the Diels-Alder reaction and the model system involves dinucleotide phosphate. 4-Chlorobenzenethiol can be reacted with hydrochloric acid or trifluoroacetic acid as an oxidizing agent.

Formula: C₆H₅ClS

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 144.62 g/mol

Potassium 3-(phenylsulfonyl)benzenesulfonate

CAS:

• 63316-43-8

Potassium 3-(phenylsulfonyl)benzenesulfonate is a chemical compound that is used as an anti-aging agent. It has been shown to reduce the viscosity of acrylonitrile, and is most effective when it is at a concentration of 1%. Potassium 3-(phenylsulfonyl)benzenesulfonate also reduces the strain on polymer fibers, which can be caused by temperatures or deionized water. The optimum temperature for this compound is about 50°C. Potassium 3-(phenylsulfonyl)benzenesulfonate does not have any adverse effects with other chemicals in the production process, and does not react with hexamethylenetetramine or aminopropyl naphthenate. This chemical also has a low cost and high tolerance for additives such as styrene or additives such as resistant

Formula: C₁₂H₉KO₅S₂

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 336.43 g/mol

2,5-Dimethyl-1,4-benzenediamine

CAS:

• 6393-01-7

2,5-Dimethyl-1,4-benzenediamine is an amine that is used as a reagent in organic synthesis. It is also used to derivatize other molecules and as a precursor to other compounds. 2,5-Dimethyl-1,4-benzenediamine has been shown to be a good nucleophile and can react with electrophiles such as difluoride and the metal ion Ag(I). The reaction rate of 2,5-dimethyl-1,4-benzenediamine can be determined using high performance liquid chromatography or electrospray ionization. This compound can be synthesized from phenylmagnesium bromide and methyl iodide in the presence of aluminium chloride. It is possible to immobilize 2,5-dimethyl-1,4-benzenediamine on mesoporous silica by attaching it to the surface of the porous material with aminop

Formula: C₈H₁₂N₂

Purity: Min. 95%

Color and Shape: Beige To Brown Solid

Molecular weight: 136.19 g/mol

2-Oxo-2-(2,4,6-trihydroxyphenyl)acetic acid

CAS:

• 69098-01-7

2-Oxo-2-(2,4,6-trihydroxyphenyl)acetic acid is a useful synthetic building block/scaffold.

Formula: C₈H₆O₆

Purity: Min. 95%

Molecular weight: 198.13 g/mol

(5Z)-6-Chlorohexa-1,5-Diene

CAS:

• 27934-74-3

Formula: C₆H₉Cl

Molecular weight: 116.59

3-Methylpentane

CAS:

• 96-14-0

Formula: C₆H₁₄

Molecular weight: 86.18

2,3,4-Trimethylhexane

CAS:

• 921-47-1

Formula: C₉H₂₀

Molecular weight: 128.26

3,5-Dihydroxy-4-acetyltoluene

CAS:

• 1634-34-0

3,5-Dihydroxy-4-acetyltoluene is a versatile building block that is used in the production of various pharmaceutical and agrochemical intermediates. It can be used as a reagent for organic synthesis and as a speciality chemical. 3,5-Dihydroxy-4-acetyltoluene has been shown to have high quality and utility. This compound can also be used as a reaction component or scaffold.

Formula: C₉H₁₀O₃

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 166.17 g/mol