Building Blocks
This section contains fundamental products for the synthesis of organic and biological compounds. Building blocks are the essential starting materials used to construct complex molecules through various chemical reactions. They play a critical role in drug discovery, material science, and chemical research. At CymitQuimica, we offer a diverse range of high-quality building blocks to support your innovative research and industrial projects, ensuring you have the essential components for successful synthesis.
Subcategories of "Building Blocks"
- Boronic Acids & Boronic Acid Derivatives(5,756 products)
- Chiral Building Blocks(1,242 products)
- Hydrocarbon Building Blocks(6,093 products)
- Organic Building Blocks(60,529 products)
Found 195536 products of "Building Blocks"
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2-Phenyl-1H-1,3-benzodiazol-5-amine
CAS:<p>Versatile small molecule scaffold</p>Formula:C13H11N3Purity:Min. 95%Molecular weight:209.25 g/mol4-(4-Fluorophenyl)phthalazin-1(2H)-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C14H9FN2OPurity:Min. 95%Molecular weight:240.23 g/mol3-(2-Fluoroethoxy)aniline
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H10FNOPurity:Min. 95%Molecular weight:155.17 g/mol2-Amino-5-ethyl-4,5-dihydro-1,3-thiazol-4-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H8N2OSPurity:Min. 95%Molecular weight:144.2 g/mol2-Hydroxy-5-phenylbenzaldehyde
CAS:<p>2-Hydroxy-5-phenylbenzaldehyde is a fluorescent probe that is used in the detection of amines and thiosemicarbazides. 2-Hydroxy-5-phenylbenzaldehyde has been shown to have antibacterial activity against bacteria such as subtilis and Staphylococcus aureus. This compound also emits fluorescence when it reacts with an amine or thiosemicarbazide, which can be used to detect these compounds. 2-Hydroxy-5-phenylbenzaldehyde also reacts with triethyl orthoformate under acidic conditions, producing ethylene and formic acid, which can be used to produce a volatile gas that can be detected by gas chromatography (GC).</p>Formula:C13H10O2Purity:Min. 95%Molecular weight:198.22 g/mol5-Chloro-2-methoxy-3-methylaniline
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H10ClNOPurity:Min. 95%Molecular weight:171.62 g/mol4-Chloro-2-methyl-6-nitrophenol
CAS:<p>4-Chloro-2-methyl-6-nitrophenol is an organic compound with the chemical formula C6H4ClNO2. It is a white solid that is soluble in water, alcohols and ether. It has uses as a pesticide and in the manufacture of dyes, pharmaceuticals, and herbicides. 4-Chloro-2-methyl-6-nitrophenol can be made by reacting phosphorus pentachloride with chlorophenols at temperatures below 100 °C. The reaction can also be activated by adding hydrochloric acid or absorbing electromagnetic radiation such as sunlight. The phototransformation of 4CMPNP to its photoproducts is dependent on irradiation wavelength. Irradiation of 4CMPNP with ultraviolet light leads to the formation of 3,5-dichloroaniline (3,5 DCA). The interaction between 4CMPNP and chlorine ions produces colorless monochlorob</p>Formula:C7H6ClNO3Purity:Min. 95%Molecular weight:187.58 g/mol1-Phenyl-2-(piperazin-1-yl)ethan-1-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H18N2OPurity:Min. 95%Molecular weight:206.28 g/molN-Cyclohexylbenzamide
CAS:<p>N-Cyclohexylbenzamide is a cross-coupling reaction that is used in organic synthesis. It is an efficient method for the synthesis of organometallic compounds and pharmaceuticals, including drugs with high bioavailability. N-Cyclohexylbenzamide has been shown to be effective against intestinal bacteria such as Salmonella enterica and Helicobacter pylori. This drug has also been detected in humans, where it can be found at low concentrations in urine. The compound is metabolized by hydrolysis of the amide group to yield benzoic acid and cyclohexanol. The mechanism of action of N-Cyclohexylbenzamide is not fully understood, but it has been postulated that it inhibits the formation of reactive oxygen species (ROS) by preventing the activity of NADPH oxidase, which leads to oxidative stress and cell death.</p>Formula:C13H17NOPurity:Min. 95%Molecular weight:203.28 g/molMethyl 5-chloro-1H-pyrrole-2-carboxylate
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H6ClNO2Purity:Min. 95%Molecular weight:159.57 g/mol2,5-Dimethyl 1H-pyrrole-2,5-dicarboxylate
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H9NO4Purity:Min. 95%Molecular weight:183.16 g/mol5,5-Dimethyl-1,3,2-dioxathiane 2,2-dioxide
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H10O4SPurity:Min. 95%Molecular weight:166.2 g/mol2-Fluorocycloheptan-1-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H11FOPurity:Min. 95%Molecular weight:130.16 g/mol2-Methyl-1-(3-methylphenyl)propan-2-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H16OPurity:Min. 95%Molecular weight:164.24 g/mol1-(3-Chlorophenyl)-2-methylpropan-2-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H13ClOPurity:Min. 95%Molecular weight:184.66 g/molAcetone Thiosemicarbazone
CAS:<p>Acetone thiosemicarbazone is a chelating agent that contains a hydroxyl group, an ethylene diamine group, and a sulfonamide group. The compound has been shown to be active in wastewater treatment for the removal of polyvinyl chloride (PVC) and other organic compounds. It is also used as an anti-inflammatory drug in pharmaceutical preparations. Acetone thiosemicarbazone has been shown to chelate metal ions and prevent their binding to proteins, which may lead to its ability to inhibit inflammation.</p>Formula:C4H9N3SPurity:Min. 95%Molecular weight:131.2 g/molMethyl 3-[3-(methoxycarbonyl)phenyl]benzoate
CAS:<p>Versatile small molecule scaffold</p>Formula:C16H14O4Purity:Min. 95%Molecular weight:270.28 g/mol1-(Pyridin-4-yl)ethane-1,2-diol hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H10ClNO2Purity:Min. 95%Molecular weight:175.61 g/mol4-(5-Amino-1,3,4-oxadiazol-2-yl)phenol
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H7N3O2Purity:Min. 95%Molecular weight:177.16 g/mol(E)-N,1-Diphenylmethanimine
CAS:<p>Versatile small molecule scaffold</p>Formula:C13H11NPurity:Min. 95%Molecular weight:181.23 g/mol2-(3-Aminopropoxy)-1,3-dimethylbenzene hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H18ClNOPurity:Min. 95%Molecular weight:215.72 g/mol4-Amino-5,5-dimethyl-2,5-dihydro-1H-imidazol-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H9N3OPurity:Min. 95%Molecular weight:127.14 g/mol5-(Aminomethyl)-2-methylpyrimidin-4-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H9N3OPurity:Min. 95%Molecular weight:139.16 g/molCarbamic acid isopropyl ester
CAS:<p>Carbamic acid isopropyl ester (CiPA) is a drug that is used to treat metabolic disorders and autoimmune diseases. It has been shown to be effective in clinical trials for the treatment of chronic schizophrenia and psychotic disorder. CiPA inhibits the activity of lysine residues on proteins, which are involved in the metabolism of amino acids. It also binds to amide groups and carbonyl groups on proteins, leading to inhibition of protein synthesis and other biological processes. The pharmacokinetic properties of CiPA are thought to be due to its ability to inhibit liver cells, which can lead to an increase in the elimination rate of this drug from the body.</p>Formula:C4H9NO2Purity:Min. 95%Molecular weight:103.12 g/mol2,4,5-Triiodo-1H-imidazole
CAS:<p>2,4,5-Triiodo-1H-imidazole is a heterocyclic compound that is used to bind reactive epoxides and as a polymerization inhibitor. 2,4,5-Triiodo-1H-imidazole can exist in two different forms: the thermodynamically stable form and the thermodynamically unstable form. The unstable form is more electron deficient and has minimal activity. The stable form has higher reactivity and is an antifungal agent against Candida species. It also binds to metal ions such as ammonium nitrate to inhibit its explosive properties. 2,4,5-Triiodo-1H-imidazole can be prepared by iodination of 2-chloropyrimidine with potassium iodide in acetic acid solution at room temperature. This reaction produces the triiodide salt of 2,4,5-triiodopyrimidine (2TIP), which can be purified</p>Formula:C3HI3N2Purity:Min. 95%Molecular weight:445.77 g/mol2-Methylcoumaran
CAS:<p>2-Methylcoumaran is a functionalized coumarin. It is synthesized by the reaction of 2-methylcoumarin with an alkylating agent such as acetyl chloride or benzoyl chloride. This reaction involves the substitution of one of the hydroxyl groups in 2-methylcoumarin with an alkyl group, forming a new bond between the two carbon atoms. The resulting product has two new functional groups, which can be used in organic reactions.</p>Formula:C9H10OPurity:Min. 95%Molecular weight:134.18 g/mol2-Benzylquinoline
CAS:<p>2-Benzylquinoline is an isomer of quinoline. It has two nitrogen atoms and four carbon atoms. 2-Benzylquinoline can be synthesized by the efficient method of imine formation. It can also be prepared by heating dimethyl acetylenedicarboxylate with a halogenated compound, such as bromine or chlorine. The equilibration reaction mechanism of 2-benzylquinoline is not yet known, but it may involve a carbonyl group interaction.<br>2-Benzylquinoline has been found to have antivenom properties in the past, but recent research suggests that it does not possess this property.</p>Formula:C16H13NPurity:Min. 95%Molecular weight:219.28 g/mol1-N-(4-Methyl-1,3-thiazol-2-yl)benzene-1,4-diamine
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H11N3SPurity:Min. 95%Molecular weight:205.28 g/mol3-(3-(Trifluoromethyl)phenyl)pyrrolidin-3-ol hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H13ClF3NOPurity:Min. 95%Molecular weight:267.67 g/mol1-Nitro-4-(pentafluoroethoxy)benzene
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H4F5NO3Purity:Min. 95%Molecular weight:257.11 g/mol1-Phenylbut-3-yn-1-ol
CAS:<p>1-Phenylbut-3-yn-1-ol is a monomer that belongs to the group of furyl compounds. It is one of the most important building blocks for organic chemistry. This compound has been used as a starting material in the synthesis of many other molecules, such as trisubstituted and asymmetric syntheses. The chloride ion can be substituted with other anions, such as dialkylamino or trisubstituted, to create different chemical structures. 1-Phenylbut-3-yn-1-ol can also be converted into biphenyl by adding phenoxy groups.</p>Formula:C10H10OPurity:Min. 95%Molecular weight:146.19 g/mol1-(4-Chlorophenyl)-2,3-dimethylbutan-2-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H17ClOPurity:Min. 95%Molecular weight:212.71 g/mol2-[(Pyrimidin-2-yl)amino]ethan-1-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H9N3OPurity:Min. 95%Molecular weight:139.16 g/mol3-(2-Chloroethoxy)propanenitrile
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H8ClNOPurity:Min. 95%Molecular weight:133.57 g/mol3-Ethenylcyclohexan-1-one
CAS:<p>3-Ethenylcyclohexan-1-one is a palladium-catalyzed, tricyclic cyclization of diphosphine and decarboxylation. It is stereoselective and has been used in the synthesis of chiral, asymmetric lactones. 3-Ethenylcyclohexan-1-one has also been used to synthesize analogs with allylic substitution. 3-Ethenylcyclohexan-1-one is catalytic and can be used for intramolecular carbonate formation.</p>Formula:C8H12OPurity:Min. 95%Molecular weight:124.18 g/mol1,2,4,5-Tetramethylimidazole
CAS:<p>1,2,4,5-Tetramethylimidazole is a synthetic organic compound that has been used to synthesize polymers. It is chemically stable in the presence of primary amines and other compounds that can form hydrogen bonds. 1,2,4,5-Tetramethylimidazole has been shown to be useful as a matrix polymer because it can undergo free radical polymerization with various functional groups. It can also react with anions such as nitrate or chloride ion to form ionic complexes. Thermally, 1,2,4,5-tetramethylimidazole decomposes into ammonia and methanol at temperatures above 200°C.</p>Formula:C7H12N2Purity:Min. 95%Molecular weight:124.19 g/mol4-Chloro-5-methoxy-6-methylpyrimidine
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H7ClN2OPurity:Min. 95%Molecular weight:158.58 g/molN-(4-Phenylbutyl)aniline
CAS:<p>Versatile small molecule scaffold</p>Formula:C16H19NPurity:Min. 95%Molecular weight:225.33 g/molN-(3-Phenylpropyl)aniline
CAS:<p>Versatile small molecule scaffold</p>Formula:C15H17NPurity:Min. 95%Molecular weight:211.3 g/mol2-(5-Methyl-1H-1,2,3,4-tetrazol-1-yl)-3-phenylprop-2-enoic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H10N4O2Purity:Min. 95%Molecular weight:230.22 g/mol1-N-Ethyl-4-fluorobenzene-1,2-diamine
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H11FN2Purity:Min. 95%Molecular weight:154.18 g/mol2,2,2-Trifluoro-1-(3-methylphenyl)ethan-1-ol
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H9F3OPurity:Min. 95%Molecular weight:190.16 g/mol3-(3-Fluorophenyl)-5-methyl-1,2-oxazole-4-carboxylic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H8FNO3Purity:Min. 95%Molecular weight:221.18 g/mol4-(Trifluoromethoxy)styrene
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H7F3OPurity:Min. 95%Molecular weight:188.15 g/mol4-Methylbenzo[b]thiophene-2-carboxylic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H8O2SPurity:Min. 95%Molecular weight:192.23 g/mol2-(5-Methyl-1-benzothiophen-3-yl)acetic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H10O2SPurity:Min. 95%Molecular weight:206.26 g/mol2-(Acetyloxy)-5-chlorobenzoic acid
CAS:<p>2-(Acetyloxy)-5-chlorobenzoic acid is a potent apoptotic agent that is being investigated for its potential use in the treatment of cancer. It has been shown to inhibit tumor growth and increase survival in animal models and has been assessed in human clinical trials. 2-(Acetyloxy)-5-chlorobenzoic acid induces apoptosis by inhibiting DNA synthesis, protein synthesis, or both. It also inhibits the activity of caspases, enzymes that are involved in tumor cell death. This compound may be used to treat Alzheimer's disease because it inhibits tau phosphorylation, which is an important marker for Alzheimer's disease pathology.</p>Formula:C9H7ClO4Purity:Min. 95%Molecular weight:214.6 g/mol5-Phenyl-1,2-thiazole-3-carboxylic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H7NO2SPurity:Min. 95%Molecular weight:205.23 g/mol3-Methyl-5-phenyl-1,2-thiazole
CAS:<p>3-Methyl-5-phenyl-1,2-thiazole is a heterocycle that is biologically active. It is an intramolecular nucleophilic addition to a carbonyl group. This reaction has been shown to be one of the most efficient methods for the synthesis of 5-substituted isothiazoles, which are bioactive substances with anticancer properties. The strategy of using 3-methyl-5-phenyl-1,2-thiazole as a substrate in cross coupling reactions has been used in cancer chemotherapy.</p>Formula:C10H9NSPurity:Min. 95%Molecular weight:175.25 g/molDimethyl Dodecanedioate
CAS:<p>Dimethyl Dodecanedioate is a chemical compound that belongs to the group of glycol esters. It is a solid catalyst for the production of nitrogen-containing organic compounds. Dimethyl Dodecanedioate can be used as a starting material in the synthesis of various chemical structures, such as fatty acids, which are important in the chemical and pharmaceutical industries. This product also has catalytic properties, which make it useful for hydrogenation and oxidation reactions.</p>Formula:C14H26O4Purity:Min. 95%Molecular weight:258.36 g/mol8-bromonaphthalene-1-carboxylic acid
CAS:<p>8-Bromonaphthalene-1-carboxylic acid is an organic compound with the chemical formula C6H4BrO2. It is a white solid that is soluble in water, methanol, and ethanol. 8-Bromonaphthalene-1-carboxylic acid can be synthesized by hydrolysis of ethyl esters of naphthalene with alkali or sulphonation. The yields are usually low (25%). The product can also be made via the diazotization of naphthalenes in the presence of sodium azide to form naphthamide, which then reacts with bromine to form 8-bromonaphthalene-1-carboxylic acid. 8-Bromonaphthalene carboxylic acid has been used as a nucleophile in organic synthesis for conjugate addition reactions.</p>Formula:C11H7BrO2Purity:Min. 95%Molecular weight:251.1 g/mol5-(Iodomethyl)oxolan-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H7IO2Purity:Min. 95%Molecular weight:226.01 g/molrac-(1R,2S,4S)-7-Oxabicyclo[2.2.1]heptane-2-carbonitrile, endo
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H9NOPurity:Min. 95%Molecular weight:123.15 g/mol4-bromobenzylhydrazine hcl
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H10BrClN2Purity:Min. 95%Molecular weight:237.53 g/mol3-Iodo-2-propynol
CAS:<p>3-Iodo-2-propynol is a microbicidal agent, which belongs to the group of phenyl substituted alkylthio compounds. It is active against acarids and reactive with metal ions and organic solvents. 3-Iodo-2-propynol has been shown to have a high microbicidal activity against microorganisms such as Escherichia coli, Pseudomonas aeruginosa, and Staphylococcus aureus. The chemical structure of 3-iodo-2-propynol can be described as a chlorinated derivative of 2-propenal.<br>3-Iodo-2-propynol is an ester hydrochloride with the molecular formula CHClNO that was synthesized in 1885 by A. Wurtz and C. Perkin. The chemical properties of this compound are similar to those of phenylethyl alcohol (PEA).</p>Formula:C3H3IOPurity:Min. 95%Molecular weight:181.96 g/mol2-(Pyridin-4-yl)-1H-1,3-benzodiazol-5-amine
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H10N4Purity:Min. 95%Molecular weight:210.23 g/molCyclododecanol
CAS:<p>Cyclododecanol is a non-polar solvent that has been used in pharmaceutical preparations. Cyclododecanol is produced by the reaction of cyclododecanone with dodecanedioic acid, fatty acids, and hydrogen fluoride. The hydroxyl group of cyclododecanol reacts with piperazine to form a solid catalyst. This reaction solution can then be separated into two layers using a section: the lower layer contains cyclohexane and the upper layer contains cyclododecanol. Cyclododecanol has a hydrophobic effect due to its lack of polar functional groups.<br>Molecular Weight: 150<br>Boiling Point: <br>Melting Point: -156°C<br>Solubility: Soluble (0.1 g/100 mL) in water<br>Flash Point: <br>Vapor Pressure: <br>Density: 0.988 g/mL at 25°C</p>Formula:C12H24OPurity:Min. 95%Molecular weight:184.32 g/mol2,3-dimethylquinoline
CAS:<p>2,3-dimethylquinoline is a molecule that is used in wastewater treatment. It can be synthesized from 2,3-dimethylaniline and hydrochloric acid. This compound has been shown to have a high affinity for amines and other functional groups, which makes it a good candidate for use in activated sludge systems. The redox potential of this molecule also allows it to oxidize glyoxal and naphthalene. The immobilized form of this compound is used as an adsorbent for the removal of particles from wastewater.</p>Formula:C11H11NPurity:Min. 95%Molecular weight:157.22 g/molEthyl 2-Methylnicotinate
CAS:<p>Ethyl 2-methylnicotinate is a synthetic compound that has been used in the synthesis of other compounds. It is derived from nicotinic acid and ethyl alcohol, and its chemical formula is C9H11NO2. The compound is decarboxylated to give ethoxycarbonyl, which reacts with quinolizine to form an amide. Ethyl 2-Methylnicotinate can be synthesized by reacting hydrochloric acid with an amide, or it can be obtained from the reaction of acetaldehyde and amine. This process produces an n-oxide as a byproduct, which can then be converted into other products.</p>Formula:C9H11NO2Purity:Min. 95%Molecular weight:165.19 g/mol1-(2,6-Dimethylpyridin-3-yl)ethan-1-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H11NOPurity:Min. 95%Molecular weight:149.19 g/mol1-(2-Methylpyridin-3-yl)ethanone
CAS:<p>1-(2-Methylpyridin-3-yl)ethanone is a ketone that can be synthesized using the reaction of methyl sulfone, benzyl sulfone, and sulphone. It has been shown to have anti-inflammatory properties by inhibiting prostaglandin synthesis and has been used as a nonsteroidal anti-inflammatory drug (NSAID). 1-(2-Methylpyridin-3-yl)ethanone has also been shown to have analgesic effects in mice. This synthetic compound may be useful in treating inflammation, pain, and fever.</p>Formula:C8H9NOPurity:Min. 95%Molecular weight:135.16 g/mol1,9-Decadiyne
CAS:<p>1,9-Decadiyne is a monolayer that has been synthesized from the coupling of two phenylacetylene molecules. This molecule has a molecular weight of 204. The interpunctella and pteleifolia species are the only known natural sources of 1,9-decadiyne. These species were bioassayed for antifungal activity against a number of fungi, including Aspergillus niger and Candida albicans. The optical properties of 1,9-decadiyne have been characterized using UV-visible spectroscopy and found to be similar to those of eugenol. Molecular modeling studies have shown that 1,9-decadiyne copolymerizes with polystyrene in an alternating fashion. Pharmacokinetic properties have been studied in rats and show that it is absorbed through the skin and metabolized by esterases in the liver. Gel permeation chromatography results show that there is a large amount</p>Formula:C10H14Purity:Min. 95%Molecular weight:134.22 g/molMethyl 4-(methoxymethyl)benzoate
CAS:<p>Methyl 4-(methoxymethyl)benzoate is a monomer that can be used to synthesize bioplastics. It is dehydrating and has a furanic ring, which makes it a good candidate for polymerization. Methyl 4-(methoxymethyl)benzoate can be used as an alternative to ethylene as the monomer in polyethylene terephthalate (PET). PET is a thermoplastic that has been shown to degrade slowly in the environment. The dehydration of methyl 4-(methoxymethyl)benzoate takes place at low temperatures with zirconium, which provides the activation energy needed for this reaction. The dehydration of methyl 4-(methoxymethyl)benzoate also produces 5-hydroxymethylfurfural (HMF), which can be used as a renewable fuel or chemical feedstock. Strategies for synthesizing methyl 4-(methoxymethyl)benzoate</p>Formula:C10H12O3Purity:Min. 95%Molecular weight:180.2 g/mol4-Thioureidobenzenesulfonamide
CAS:<p>4-Thioureidobenzenesulfonamide (4-TBS) is a biochemical that interacts with β-catenin and inhibits the proliferation of cardiac and cancer cells. 4-TBS has been shown to have anticancer activity in vitro, but clinical studies have not yet been conducted. 4-TBS has been shown to inhibit the growth of testicular cancer cells in whole-cell patch-clamp assays. 4-TBS also has an inhibition potential for heart disease, which may be due to its ability to reduce carbonic anhydrase 2 levels.</p>Formula:C7H9N3O2S2Purity:Min. 95%Molecular weight:231.3 g/molEthyl 2-(4-bromo-2-fluorophenoxy)acetate
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H10BrFO3Purity:Min. 95%Molecular weight:277.09 g/mol4,4,4-Trifluoro-3-hydroxy-3-phenylbutanoic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H9F3O3Purity:Min. 95%Molecular weight:234.17 g/mol2-Cyclohexylideneacetaldehyde
CAS:<p>2-Cyclohexylideneacetaldehyde is a carbinol that is synthesized from the reaction of an alkyl group with phosphorus pentoxide and hydroxy group. It is used as a reagent in organic synthesis, specifically for the production of hyaluronic acid. 2-Cyclohexylideneacetaldehyde may be used as an additive in cosmetics and personal care products to provide moisturizing effects. It also has pheromone-like activity, which can be used to attract insects such as mosquitoes and fruit flies.</p>Formula:C8H12OPurity:Min. 95%Molecular weight:124.18 g/mol2-Chloro-1-[3-(2-chloroacetyl)phenyl]ethan-1-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H8Cl2O2Purity:Min. 95%Molecular weight:231.07 g/mol1-Isopropenyl-4-methoxybenzene
CAS:<p>1-Isopropenyl-4-methoxybenzene is a halide that can be used as a catalyst for the hydroxylation of styrene, yielding 1-isopropenyl-3-methoxybenzene. This reaction is catalyzed by acid or base. The hydrogen peroxide present in the reaction mixture oxidizes the methoxy group to an aldehyde, which then reacts with the styrene. In addition, this reagent can be used to methylate chlorides and transfer alkyl groups. The electroreduction of this compound yields c–h bond and peroxide. This reagent can also act as an oxidant in organic synthesis.</p>Formula:C10H12OPurity:Min. 95%Molecular weight:148.2 g/mol5-Benzyl-2,3-dihydro-1,3,4-oxadiazol-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H8N2O2Purity:Min. 95%Molecular weight:176.2 g/mol5-(Methoxymethyl)-2,3-dihydro-1,3,4-oxadiazol-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C4H6N2O3Purity:Min. 95%Molecular weight:130.1 g/mol5-(Propan-2-yl)-2,3-dihydro-1,3,4-oxadiazol-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H8N2O2Purity:Min. 95%Molecular weight:128.13 g/mol5-(Propan-2-yl)-1,3,4-oxadiazole-2-thiol
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H8N2OSPurity:Min. 95%Molecular weight:144.2 g/mol2,1,3-Benzothiadiazole-4,5-diamine
CAS:<p>2,1,3-Benzothiadiazole-4,5-diamine is a ketone that can be derived from the condensation of styrene with ammonia. The yield of this reaction is low and it requires an excess of styrene. 2,1,3-Benzothiadiazole-4,5-diamine has been found to be environmentally viable as it does not produce any harmful byproducts when heated at high temperatures. This compound has also shown to have promising results in animal studies as a potential treatment for malaria.</p>Formula:C6H6N4SPurity:Min. 95%Molecular weight:166.21 g/mol4-(2-Hydroxyethoxy)benzenecarboxylic acid
CAS:<p>4-(2-Hydroxyethoxy)benzenecarboxylic acid is a polyester that has been shown to have heat resistance, high mechanical properties, and biologic activity. It is prepared by the polymerization of benzoic acid with titanium and a catalyst. This polyester can be used as a structural material for implants or as a polymerization catalyst for polycondensation reactions. 4-(2-Hydroxyethoxy)benzenecarboxylic acid has an aliphatic group with 2 aliphatic groups and an aliphatic substance. It also exhibits catalytic activity in promoting the formation of polyesters from diols and diacids.</p>Formula:C9H10O4Purity:Min. 95%Molecular weight:182.18 g/mol3,3-dichloroazepan-2-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H9NOCl2Purity:Min. 95%Molecular weight:182.04 g/mol1-Benzyl-1,2,3,6-tetrahydropyridazine-3,6-dione
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H10N2O2Purity:Min. 95%Molecular weight:202.21 g/mol2-(3-Methyl-4-phenyl-1H-pyrazol-1-yl)acetic acid
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H12N2O2Purity:Min. 95%Molecular weight:216.24 g/mol2,5-Dimethylanisole
CAS:<p>2,5-Dimethylanisole is a solvent that is used in organic synthesis. It can be used to remove protein targets from the reaction mixture and as a reagent for alkoxyphenols. 2,5-Dimethylanisole has been shown to have high values in luminescence properties. 2,5-Dimethylanisole can also be used as an indicator for hydrogen chloride. 2,5-Dimethylanisole has been found to react with alzheimer 's disease and acetonitrile to form eugenol, an acceptor. The transfer reactions of 2,5-dimethylanisole are not yet fully understood but are thought to involve metal ions and hydrogen chloride or acetonitrile.</p>Formula:C9H12OPurity:Min. 95%Molecular weight:136.19 g/mol2-[2-(Dimethylamino)ethoxy]ethanol
CAS:Controlled Product<p>2-[2-(Dimethylamino)ethoxy]ethanol (DMAEE) is a chemical that belongs to the group of amines. It is used as a surfactant in the form of ethylene diamine or metal hydroxides and has been shown to have transport properties. DMAEE's protonated form has been shown to adsorb on metal oxides, such as iron oxide, aluminum oxide, and titanium dioxide. This adsorption mechanism may be due to its cationic nature. DMAEE also reacts with nitrous acid in water to form an intermediate which can be oxidized by atmospheric oxygen. The reaction mechanism for this oxidation is not yet well understood.</p>Formula:C6H15NO2Purity:Min. 95%Color and Shape:Clear LiquidMolecular weight:133.19 g/mol2,4-Dimethyl-6-oxo-1,6-dihydropyridine-3-carbonitrile
CAS:<p>2,4-Dimethyl-6-oxo-1,6-dihydropyridine-3-carbonitrile is a nitrile that is synthesized by reacting 2,4-dimethylpyridine with formaldehyde. It has a molecular weight of 202.2 g/mol and density of 1.42 g/cm³ at 20 °C. The functional theory predicts the transformation of 2,4-dimethylpyridine to 2,4-dimethyl-6-oxo-1,6-dihydropyridine through the intermediate formation of formaldehyde and nitrile. This reaction can be confirmed by diffraction experiments and the experimental study on the pathway for this transformation. The experiment also revealed that 2,4-dimethylpyridine reacts with formaldehyde to produce formic acid as well as 6 molecules of water. The density functional theory supports the experimental data and predicts that there are two possible pathways for this</p>Formula:C8H8N2OPurity:Min. 95%Molecular weight:148.16 g/mol4-(Chloromethyl)-N,N-dimethylaniline hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H13Cl2NPurity:Min. 95%Molecular weight:206.11 g/mol4-(Dimethylamino)benzyl Alcohol
CAS:<p>4-(Dimethylamino)benzyl Alcohol is a chemical compound with the formula CH3(CH2)3NH2. It is used as an antibiotic drug and has been shown to have an average particle diameter of 80 nanometers, bulk polymerization, hydroxy group, and polymerization initiator. 4-(Dimethylamino)benzyl Alcohol has been shown to be effective against bacteria that are resistant to penicillin, ampicillin, erythromycin, or tetracycline. This chemical compound has FTIR spectra in the range of 400-4000 cm-1 and can be used for the synthesis of polymeric matrices in many applications.</p>Formula:C9H13NOPurity:Min. 95%Molecular weight:151.21 g/mol6-Methoxy-2,3-dihydropyridazin-3-one
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H6N2O2Purity:Min. 95%Molecular weight:126.11 g/mol7-Benzyl-7-azabicyclo[2.2.1]heptane-1-carboxylic acid hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C14H18ClNO2Purity:Min. 95%Molecular weight:267.8 g/mol1-(2-Chloro-5-fluoropyrimidin-4-yl)pyrrolidin-3-amine dihydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H12Cl3FN4Purity:Min. 95%Molecular weight:289.6 g/mol{2-Benzyl-8-oxa-2-azaspiro[4.5]decan-4-yl}methanamine dihydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C16H26Cl2N2OPurity:Min. 95%Molecular weight:333.3 g/mol2',3'-Dihydro-1'H-spiro[oxane-4,4'-pyrrolo[1,2-a]pyrazine]
CAS:<p>Versatile small molecule scaffold</p>Formula:C11H16N2OPurity:Min. 95%Molecular weight:192.3 g/mol7-(Azetidin-3-yloxy)quinoline dihydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H14Cl2N2OPurity:Min. 95%Molecular weight:273.2 g/moltert-Butyl N-[1-(1-imino-1-oxo-1λ⁶-thian-4-yl)cyclopropyl]carbamate
CAS:<p>Versatile small molecule scaffold</p>Formula:C13H24N2O3SPurity:Min. 95%Molecular weight:288.4 g/mol3-Methyl-1H,2H,3H-pyrrolo[3,2-b]pyridine
CAS:<p>Versatile small molecule scaffold</p>Formula:C8H10N2Purity:Min. 95%Molecular weight:134.2 g/mol2,4-Difluoro-6-methoxyaniline hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H8ClF2NOPurity:Min. 95%Molecular weight:195.59 g/mol3λ⁴-Thia-7-azabicyclo[3.3.1]nonan-3-one hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H14ClNOSPurity:Min. 95%Molecular weight:195.7 g/mol3-Amino-2-(2,5-difluorophenyl)propanoic acid hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C9H10ClF2NO2Purity:Min. 95%Molecular weight:237.6 g/mol2-Fluoro-5-[(pyrrolidin-3-yl)methyl]benzonitrile hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C12H14ClFN2Purity:Min. 95%Molecular weight:240.7 g/mol1-Hydroxy-4-methyl-1H-imidazole-5-carboxylic acid hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C5H7ClN2O3Purity:Min. 95%Molecular weight:178.6 g/molN,4-Dimethyloxan-4-amine hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H16ClNOPurity:Min. 95%Molecular weight:165.7 g/mol3-Cyclopropyl-3-methylazetidine hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C7H14ClNPurity:Min. 95%Molecular weight:147.6 g/mol3-(3-Cyclopropylpyrrolidin-2-yl)-4-methyl-4,5-dihydro-1H-1,2,4-triazol-5-one hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C10H17ClN4OPurity:Min. 95%Molecular weight:244.7 g/mol1-Amino-3-methoxy-2-(methoxymethyl)propan-2-ol hydrochloride
CAS:<p>Versatile small molecule scaffold</p>Formula:C6H16ClNO3Purity:Min. 95%Molecular weight:185.6 g/mol
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