Aldehydes

Aldehydes are organic compounds containing a carbonyl group (C=O) bonded to at least one hydrogen atom. These versatile compounds are fundamental in various chemical reactions, including oxidation, reduction, and nucleophilic addition. Aldehydes are essential building blocks in the synthesis of pharmaceuticals, fragrances, and polymers. At CymitQuimica, we provide a diverse selection of high-quality aldehydes to support your research and industrial applications.

5-Bromo-2-hydroxybenzaldehyde

CAS:

• 1761-61-1

5-Bromo-2-hydroxybenzaldehyde (5BHB) is an organic compound that has been shown to have a coordination geometry of group p2. This compound binds to DNA and RNA, inhibiting the transcription process. 5BHB also has the ability to form a copper complex with malonic acid. This redox potential is reduced by one electron when copper is added in order to form the copper complex, which allows for the reactivity of 5BHB to be increased. 5BHB binds to nucleic acids through hydrogen bonding interactions with nitrogen atoms and lone pairs on oxygen atoms. The reaction mechanism for 5BHB involves intramolecular hydrogen transfer from one molecule of 5BHB to another, forming an intermediate that then reacts with nucleic acid.

Formula: C₇H₅BrO₂

Purity: Min. 95%

Color and Shape: White Powder

Molecular weight: 201.02 g/mol

Ac-Leu-Val-Lys-aldehyde

CAS:

• 147600-40-6

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Formula: C₁₉H₃₆N₄O₄

Purity: Min. 95%

Molecular weight: 384.51 g/mol

Benzimidazole-5-aldehyde

CAS:

• 58442-17-4

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Formula: C₈H₆N₂O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 146.15 g/mol

2,2-Dimethoxyacetaldehyde - About 60% water solution

CAS:

• 51673-84-8

2,2-Dimethoxyacetaldehyde is an inhibitor of the enzyme DNA polymerase. It has been shown to inhibit replication of the herpes simplex virus type 1 and 2 (HSV-1, HSV-2) in cell cultures. 2,2-Dimethoxyacetaldehyde has also been shown to inhibit the replication of HIV in cells and is a potential antiviral agent. This compound is also used as a building block for other drugs such as amide and ester hydrochloride. It is synthesized from 2,2-dimethoxypropane and formaldehyde with a two step process that starts with an asymmetric synthesis reaction between formaldehyde and methoxide ion followed by an ester hydrochloride formation reaction with methylamine. The product can be purified by recrystallization from water or acetone solution.

Formula: C₄H₈O₃

Purity: Min. 95%

Molecular weight: 104.1 g/mol

3-Fluoro-2-nitrobenzaldehyde

CAS:

• 872366-63-7

3-Fluoro-2-nitrobenzaldehyde is a pyridine derivative that has been used in the synthesis of a number of important heterocyclic compounds. This compound can be prepared by reacting 3,4-dichloroaniline with nitrous acid and then hydrolyzing the resulting 3-chloroquinoline with hydrochloric acid. The reaction yields anilines and quinolines in regiospecifically, as well as formylation, cyclisation, and condensation products. It is also capable of aromatisation reactions with benzene to produce benzofuran derivatives.

Formula: C₇H₄FNO₃

Purity: Min. 95%

Color and Shape: Yellow Powder

Molecular weight: 169.11 g/mol

Ac-Leu-Glu-His-Asp-aldehyde (pseudo acid) trifluoroacetate salt

CAS:

• 319494-38-7

Ac-Leu-Glu-His-Asp-aldehyde (pseudo acid) trifluoroacetate salt is a chemical compound that belongs to the group of apoptosis proteins. It has been shown to have anti-inflammatory and neuroprotective effects in primary cells, as well as to induce apoptosis in HL60 cells. Ac-Leu-Glu-His-Asp-aldehyde (pseudo acid) trifluoroacetate salt is also able to inhibit the activation of the caspase pathway by preventing the release of cytochrome c from mitochondria and decreasing the mitochondrial membrane potential. The protein may be used as an agent for skin cancer treatment.

Formula: C₂₃H₃₄N₆O₉

Purity: Min. 95%

Molecular weight: 538.55 g/mol

2-(Dimethylamino)acetaldehyde sulfite

CAS:

• 1413945-87-5

2-(Dimethylamino)acetaldehyde sulfite is a white crystalline solid with a melting point of around 100°C. It is soluble in water and slightly soluble in organic solvents. 2-(Dimethylamino)acetaldehyde sulfite can be used as a reagent to prepare alkali solutions and acid hydrochlorides. It can also be used as an intermediate for the synthesis of methacrylic acid, methyl acetate, and other organic compounds. 2-(Dimethylamino)acetaldehyde sulfite can be synthesized using a high-yield synthetic method involving lithium, acidification, and an organic solvent.

Purity: Min. 95%

2,4-Dichlorobenzaldehyde

CAS:

• 874-42-0

2,4-Dichlorobenzaldehyde is a compound that is a member of the class of phenylpropanoids. It has been shown to react with curcumin analogues to form 1,3-dichloro-2,4-bis(chloromethyl)benzene and 1,3-dichloro-2,4-(1′,2′-dichloroethoxy)benzene. These products have been found to have high values for fluorescence analysis. This molecule also has physiological effects as a growth regulator and antimicrobial agent. 2,4-Dichlorobenzaldehyde has been used in analytical methods such as dihedral angle determination and synthetic processes like the synthesis of benzaldehydes.

Formula: C₇H₄Cl₂O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 175.01 g/mol

1-Methyl-1H-indazole-7-carbaldehyde

CAS:

• 951030-58-3

1-Methyl-1H-indazole-7-carbaldehyde is a 1,3,5-substituted indazole derivative that can be used as a building block for the synthesis of complex compounds. It is an intermediate in the synthesis of various pharmaceuticals and it has been shown to have potential applications in research chemicals. 1-Methyl-1H-indazole-7-carbaldehyde can be used as a versatile building block after conversion to other derivatives. This chemical is also being investigated as a possible treatment for Parkinson's disease and Alzheimer's disease.

Formula: C₉H₈N₂O

Purity: Min. 95%

Color and Shape: Yellow Powder

Molecular weight: 160.17 g/mol

5-(2-Methyl-4-nitrophenyl)-2-furaldehyde

CAS:

• 329222-70-0

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Formula: C₁₂H₉NO₄

Purity: Min. 95%

Molecular weight: 231.2 g/mol

N-Boc-2-aminoacetaldehyde

CAS:

• 89711-08-0

N-Boc-2-aminoacetaldehyde is an aliphatic aldehyde that has been used in the synthesis of a number of bioactive molecules. It is synthesized by reacting an N-Boc amino acid with chloroform and hydrochloric acid. The reaction time is typically 2 hours at room temperature, although it can be decreased to 20 minutes if the temperature is increased to 60°C. The product can be purified using extraction or recrystallization methods. N-Boc-2-aminoacetaldehyde reacts with chloride ions to form phosphoranes, which are useful in clinical development as antimicrobial peptides. This compound also reacts with fluorine to form hydrogenated derivatives that have been shown to have neurokinin activity in animal models.

Formula: C₇H₁₃NO₃

Purity: Min. 95%

Color and Shape: Colorless Powder

Molecular weight: 159.18 g/mol

3,5-Bis(trifluoromethyl)benzaldehyde

CAS:

• 401-95-6

3,5-Bis(trifluoromethyl)benzaldehyde is a synthetic compound that has been shown to inhibit cancer cell growth. It is a chromatographic reagent and an intermediate in the production of pharmaceuticals. 3,5-Bis(trifluoromethyl)benzaldehyde was shown to bind to the amino group of proteins and inhibit the synthesis of protein inhibitors. This compound also binds to cholesterol esters and causes lipid peroxidation, leading to cell death in cancer cells.

Formula: C₉H₄F₆O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 242.12 g/mol

Methoxyacetaldehyde diethyl acetal

CAS:

• 4819-75-4

Methoxyacetaldehyde diethyl acetal is a viscous liquid with a low vapor pressure. This substance is stable at high temperatures and has a high resistance to chemical interactions. It is also hydrophobic in nature. Methoxyacetaldehyde diethyl acetal has been shown to interact with the aminoglycoside antibiotics, erythromycin, streptomycin, and neomycin. The interaction of this substance with these antibiotics may be due to the fact that it has proton resonances similar to those of amino acids, as well as its ability to form hydrogen bonds with the antibiotic molecules. Methoxyacetaldehyde diethyl acetal also interacts with triethyl orthoformate, which can lead to the formation of an ester bond between them.

Formula: C₇H₁₆O₃

Purity: Min. 95%

Color and Shape: Colorless Clear Liquid

Molecular weight: 148.2 g/mol

Ac-Glu-Ser-Met-Asp-aldehyde (pseudo acid)

CAS:

• 191338-87-1

Ac-Glu-Ser-Met-Asp-aldehyde is a molecule that is naturally produced by the human body. It has been shown to be an endogenous caspase activator, which may lead to apoptosis. Ac-Glu-Ser-Met-Asp-aldehyde can also bind to cholesterol and influence its synthesis, thus affecting the production of other proteins. This molecule has a protease activity and can cleave peptides at specific sites. The sequences of this molecule have been determined and it has been found that these sequences are similar to those found in other proteases such as serine proteases.

Formula: C₁₉H₃₀N₄O₁₀S

Purity: Min. 95%

Molecular weight: 506.53 g/mol

3,5-Dihydroxybenzaldehyde

CAS:

• 26153-38-8

3,5-Dihydroxybenzaldehyde (DHBA) is a plant metabolite that is classified as a phenolic compound. It is found in many plants and has important biological functions such as the production of carotenoids or the cleavage of carotenoid to form other compounds. DHBA can be extracted from plant tissue with hydrochloric acid or carbon sources. It has been shown that DHBA inhibits the growth of soil bacteria by binding to amines and thus preventing them from reacting with substrates. This may be due to its ability to act as an electron donor, which could also explain its inhibitory activity on carotenoid cleavage.

Formula: C₇H₆O₃

Purity: Min. 98 Area-%

Color and Shape: Off-White To Beige To Brown Solid

Molecular weight: 138.12 g/mol

Ac-Tyr-Val-Ala-Asp-aldehyde (pseudo acid)

CAS:

• 143313-51-3

Ac-Tyr-Val-Ala-Asp-aldehyde is a sesquiterpene lactone that has been shown to have anti-inflammatory properties. It inhibits the inflammatory response by inhibiting the production of pro-inflammatory cytokines and chemokines, such as IL1β, IL6, and TNFα. Ac-Tyr-Val-Ala-Asp-aldehyde also inhibits the activity of cyclooxygenase 2 (COX2) and lipoxygenase (LOX), which are enzymes that produce prostaglandins from arachidonic acid. Acetylsalicylic acid is an example of a drug with similar properties. Acetylsalicylic acid has been shown to inhibit the growth of cancer cells in tissue culture studies and in animal models. This compound may also be used to treat bowel disease, congestive heart failure, or other diseases that are characterized by increased apoptosis.

Formula: C₂₃H₃₂N₄O₈

Purity: Min. 95%

Molecular weight: 492.52 g/mol

4-Acetoxybenzaldehyde

CAS:

• 878-00-2

4-Acetoxybenzaldehyde is a compound with an acetyl group attached to the benzene ring. It is potentially toxic to cells and has been shown to produce reactive oxygen species (ROS) in v79 cells, which can lead to cell death. The biological properties of 4-acetoxybenzaldehyde are not well understood, but it has been shown to have antioxidant properties in other studies. This compound also reacts with amines, forming acetamides and amides. 4-Acetoxybenzaldehyde is found in environmental pollution as a result of its presence in the atmosphere and its use as a solvent. It was first synthesized by the reaction of coumaric acid and acetyl chloride with formaldehyde at reflux temperature. The compound can be purified by chromatographic methods or mass spectrometric analysis.

Formula: C₉H₈O₃

Purity: Min. 95%

Color and Shape: Liquid

Molecular weight: 164.16 g/mol

Ac-Trp-Glu-His-Asp-aldehyde (pseudo acid)

CAS:

• 189275-71-6

Ac-Trp-Glu-His-Asp-aldehyde is a tetrapeptide that has been shown to inhibit the activity of caspases. Caspases are proteases that play an important role in cell death by inducing apoptosis and necrosis. The structure of the Ac-Trp-Glu-His-Asp-aldehyde was determined by X-ray crystallography, revealing a hydrophobic molecule with a pseudo acid residue. This compound binds to peptides and blocks the binding site for caspase substrates, which prevents their activation. Acetylation of this compound also increases its hydrophobicity, making it more likely to bind to other molecules such as proteins or lipids.

Formula: C₂₈H₃₃N₇O₉

Purity: Min. 95%

Molecular weight: 611.6 g/mol

4-Bromo-2-pyrrolecarboxaldehyde

CAS:

• 931-33-9

4-Bromo-2-pyrrolecarboxaldehyde is a synthetic chemical that is used as an antifungal agent. It inhibits the growth of filamentous fungi by binding to their pyrrole rings and inhibiting the synthesis of proteins. 4-Bromo-2-pyrrolecarboxaldehyde has shown in vitro antifungal activity against isolates of Candida albicans, Aspergillus niger, and Fusarium oxysporum. This compound also has substitutions at positions 1 and 2 of the pyrrole ring, which are thought to be responsible for its inhibitory properties. 4-Bromo-2-pyrrolecarboxaldehyde is soluble in organic solvents such as acetone and chloroform.

Formula: C₅H₄BrNO

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 174 g/mol

3-Acetoxybenzaldehyde

CAS:

• 34231-78-2

3-Acetoxybenzaldehyde is a chemical compound that has been used as a photosensitiser for the production of hydrogen peroxide. When irradiated with light, it undergoes a series of reactions, including the removal of an electron from the molecule and the formation of a reactive oxygen species (ROS). This ROS then reacts with chloride ions to form chlorine radicals. These chlorine radicals can react with acetyl groups to form 3-acetoxybenzoic acid. 3-Acetoxybenzaldehyde is also used in organic synthesis to produce ketones and aldehydes. The functional groups on this compound are an acetyl group and a carbonyl group. 3-Acetoxybenzaldehyde is produced by the dehydrogenation of trimethyl acetate, which is catalyzed by palladium on charcoal or platinum oxide.

Formula: C₉H₈O₃

Purity: Min. 95%

Color and Shape: Clear Liquid

Molecular weight: 164.16 g/mol

Ac-Leu-Val-Phe-aldehyde

CAS:

• 160369-84-6

Ac-Leu-Val-Phe-aldehyde is a synthetic compound that inhibits the catalytic activity of carboxyl enzymes. It binds to the catalytic site of the enzyme via a noncovalent interaction with residues on the polypeptide chain, thereby preventing the formation of an active complex with other cofactors such as metal ions, amino acids, and ATP. Ac-Leu-Val-Phe-aldehyde can be used in analytical chemistry for determination of carboxyl groups in organic compounds or for determining protein content in biological samples. Ac-Leu-Val-Phe-aldehyde has also been shown to bind to antibodies which are specific for carboxyl groups.

Formula: C₂₂H₃₃N₃O₄

Purity: Min. 95%

Molecular weight: 403.52 g/mol

Phenylpropargylaldehyde

CAS:

• 2579-22-8

Phenylpropargylaldehyde is an organic compound that is a chiral molecule, which means it has two enantiomers. It was first synthesized in 1964 by R.B. Woodward and T.W. Rittenberg at the University of Chicago, and is used as a chemical intermediate in the synthesis of other compounds with biological activity such as matrix metalloproteinase inhibitors, for example marimastat. Phenylpropargylaldehyde can be prepared from malonic acid and phenylboronic acid in a reaction mechanism that involves nucleophilic substitutions, carbonyl group activation and hydrogen bonding to lysine residues on proteins. The asymmetric synthesis of this compound has been shown to suppress genes associated with metabolic disorders such as diabetes mellitus type 2, fatty acid metabolism disorders and endocrine disorders (e.g., thyroid). It also has adjuvant therapeutic properties in cancer treatment, especially when combined with synthetic fatty acids such as oleic acid or ar

Purity: Min. 95%

Caspase-3/7 Inhibitor II Ac-Asp-Asn-Leu-Asp-aldehyde (pseudo acid)

CAS:

• 775289-20-8

Caspase-3/7 Inhibitor II Ac-Asp-Asn-Leu-Asp-aldehyde (pseudo acid) is a peptide inhibitor of caspases. It blocks the activation of these proteases and their subsequent cleavage of substrates in the apoptotic pathway. This drug has potent inhibitory activity against caspases 3, 7, 8, 9, and 10. Caspase-3/7 Inhibitor II Ac-Asp-Asn-Leu-Asp-aldehyde (pseudo acid) specifically interacts with the active site and inhibits the enzyme by binding to an aspartic acid residue at position D197 in human caspase 3. Caspase 3/7 Inhibitor II Ac-Asp-Asn-Leu-Asp-aldehyde (pseudo acid) is localized to mitochondria and binds to acetyldeviceine (acDEV), a substrate for caspases

Formula: C₂₀H₃₁N₅O₁₀

Purity: Min. 95%

Molecular weight: 501.49 g/mol

Ac-N-Me-Tyr-Val-Ala-Asp-aldehyde (pseudo acid)

CAS:

• 160806-26-8

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Formula: C₂₄H₃₄N₄O₈

Purity: Min. 95%

Molecular weight: 506.55 g/mol

2-Chloro-3-methoxybenzaldehyde

CAS:

• 54881-49-1

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Formula: C₈H₇ClO₂

Purity: Min. 95%

Molecular weight: 170.59 g/mol

N-Boc-4-piperidineacetaldehyde

CAS:

• 142374-19-4

N-Boc-4-piperidineacetaldehyde is a chiral, stable, and readily available aldehyde. It has been used in the synthesis of various biologically active molecules including imidazolidinones, which are important for their use as catalysts in organic chemistry. The synthesis of this molecule by the condensation of 4-piperidineacetic acid with acetaldehyde followed by reduction with sodium borohydride is an example of this type of reaction. N-Boc-4-piperidineacetaldehyde can be used to synthesize imines and linkers that are covalently bonded to the protein backbone. This molecule also has conformational stability and is not susceptible to oxidation or radiation damage.

Formula: C₁₂H₂₁NO₃

Purity: Min. 95%

Molecular weight: 227.3 g/mol

2-Fluoropyridine-5-carboxaldehyde

CAS:

• 677728-92-6

2-Fluoropyridine-5-carboxaldehyde is a reactive chemical that can be used as an acceptor in organic synthesis. It has been shown to have antibacterial properties, and is also a synthon for the production of prosthetic groups. 2-Fluoropyridine-5-carboxaldehyde reacts with dopamine to form diphenyl ethers, which are used as labels for immunoassays. This chemical can be catalysed and has been shown to be resistant to catalysis. 2-Fluoropyridine-5-carboxaldehyde can also be used in the synthesis of cycloalkanes.

Formula: C₆H₄FNO

Purity: Min. 95%

Molecular weight: 125.1 g/mol

Poly[(phenyl glycidyl ether)-co-formaldehyde] - Average MW 570

CAS:

• 28064-14-4

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Formula: (C₆H₆O•CH₂O)x

Purity: Min. 95%

Color and Shape: Clear Liquid

(+/-)-Perillaldehyde

CAS:

• 2111-75-3

Perillaldehyde is a natural compound that has been used in food and medicine for centuries. It is an antimicrobial agent with dextran sulfate, which is a sugar polymer that inhibits the growth of fungi and bacteria. Perillaldehyde also has been shown to inhibit the energy metabolism of microorganisms by decreasing ATP production. Perillaldehyde has also been shown to have genotoxic activity, as it can cause DNA strand breaks. This compound also causes oxidative stress in cells by reducing mitochondrial membrane potential and inducing reactive oxygen species (ROS). Perillaldehyde has acute toxicities, as it causes electrochemical impedance spectroscopy changes that indicate cell death.

Formula: C₁₀H₁₄O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 150.22 g/mol

3-Nitroisonicotinaldehyde

CAS:

• 153813-70-8

3-Nitroisonicotinaldehyde is a kinase inhibitor that binds to the ATP binding site of receptor tyrosine kinases. It inhibits the activation of these receptors and prevents the phosphorylation of tyrosine residues on the receptor. 3-Nitroisonicotinaldehyde has been shown to inhibit VEGFR-2, ABCG2, and efflux in human cancer cells. This drug has been shown to inhibit tumor growth in mice by inhibiting angiogenesis, which is a process that involves the formation of new blood vessels from pre-existing ones. 3-Nitroisonicotinaldehyde also inhibits tumor growth by blocking the production of vascular endothelial growth factor (VEGF) from angiogenic cells.

Formula: C₆H₄N₂O₃

Purity: Min. 95%

Molecular weight: 152.11 g/mol

trans,cis-2,6-Nonadienal

CAS:

• 557-48-2

Trans,cis-2,6-Nonadienal is a fatty acid derivative with an unsaturated 2,6-nonadiene structure. It is an inhibitor of the enzyme fatty acid synthase, which catalyzes the formation of long-chain polyunsaturated fatty acids. Trans,cis-2,6-Nonadienal has been shown to inhibit v79 cells and ester compounds that are used in analytical methods for measuring fatty acids. It is also able to inhibit lysine residues and it can be used as a reactive antioxidant system in mammalian cells. Trans,cis-2,6-Nonadienal has shown a profile of activities that includes inhibition at multiple endpoints involving noncompetitive inhibition as well as antioxidant activity.

Formula: C₉H₁₄O

Purity: Min. 95%

Color and Shape: Clear Liquid

Molecular weight: 138.21 g/mol

2,3,5-Trichlorobenzaldehyde

CAS:

• 56961-75-2

2,3,5-Trichlorobenzaldehyde is a chemical compound that has been shown to have anticancer and apoptotic effects. It inhibits the growth of bacteria by chelating iron ions and inhibiting bacterial dna synthesis. 2,3,5-Trichlorobenzaldehyde has also been shown to inhibit the growth of cancer cells in culture in an experimental study. This chemical has been used as a substrate for nmr spectroscopy to study its functional groups and radical scavenging activities. 2,3,5-Trichlorobenzaldehyde can be synthesized from phenacyl chloride and benzaldehyde in the presence of hydrogen chloride gas. The carbonyl group in 2,3,5-trichlorobenzaldehyde may cause metabolic disorders such as diabetes mellitus or hyperglycemia.

Formula: C₇H₃Cl₃O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 209.46 g/mol

Benzaldehyde semicarbazone

CAS:

• 1574-10-3

Benzaldehyde semicarbazone is a hydrogen bond acceptor and donor, which can be used for the synthesis of pharmaceuticals. It is also known to have significant biological activity, including anticonvulsant activity. Benzaldehyde semicarbazone has been shown to be an inhibitor of pyrazole ring formation in the reaction between 4-chlorobenzaldehyde oxime and hydrochloric acid. This inhibition may be due to its ability to act as a hydrogen bond acceptor, forming hydrogen bonds with both the carbonyl group of 4-chlorobenzaldehyde oxime and the protonated chloride ion. The mechanism is supported by kinetic studies which show that benzaldehyde semicarbazone has a much lower activation energy than the other reactants involved in the reaction.

Formula: C₈H₉N₃O

Purity: Min. 95%

Color and Shape: Powder

Molecular weight: 163.18 g/mol

2-Propyl valeraldehyde

CAS:

• 18295-59-5

2-Propyl valeraldehyde is a solvent that is used in pharmaceutical preparations and has been shown to inhibit the activity of aldehyde dehydrogenase, an enzyme that catalyzes the oxidation of alcohols and aldehydes. 2-Propyl valeraldehyde also inhibits the formation of carboxylic acids by competitive inhibition with metal ions such as zinc. The deuterium isotope effect has been used to show that 2-propyl valeraldehyde is metabolized by deuterium exchange. Mass spectrometric detection has shown that this compound contains a carbonyl group (C=O). This compound can be used as an intermediate in organic synthesis reactions, but it also has convulsant effects.

Formula: C₈H₁₆O

Purity: Min. 95%

Molecular weight: 128.21 g/mol

2-Hydroxyisophthalaldehyde

CAS:

• 3328-69-6

Formula: C₈H₆O₃

Purity: >98.0%(GC)(T)

Color and Shape: White to Light yellow to Light orange powder to crystal

Molecular weight: 150.13

2,3-Dihydroxybenzaldehyde

CAS:

• 24677-78-9

Formula: C₇H₆O₃

Purity: >98.0%(GC)(T)

Color and Shape: Light yellow to Yellow to Green powder to crystal

Molecular weight: 138.12

4-(2-Hydroxyethoxy)benzaldehyde

CAS:

• 22042-73-5

Formula: C₉H₁₀O₃

Purity: >98.0%(GC)

Color and Shape: White to Light yellow to Light orange powder to crystal

Molecular weight: 166.18

3,6-Dimethylsalicylaldehyde

CAS:

• 1666-04-2

Formula: C₉H₁₀O₂

Purity: >98.0%(GC)(T)

Color and Shape: White to Light orange to Pale yellow green powder to crystal

Molecular weight: 150.18

4-Nitrocinnamaldehyde, predominantly trans, 98%

CAS:

• 1734-79-8

Doebner-Miller reaction the 4- nitrocinnamaldehyde and 2-methylaniline in concentrated HC1 give the corresponding 8-methyl-2-phenylquinoline (3: R = 4'-N02) directly. The asymmetric Friedel-Crafts-type alkylation in aqueous media reaction of 4-Nitrocinnamaldehydr with N-methyl indole using trifluoro

Formula: C₉H₇NO₃

Purity: 98%

Color and Shape: White to yellow to orange, Powder

Molecular weight: 177.16

Cyclobutanecarboxaldehyde

CAS:

• 2987-17-9

Formula: C₅H₈O

Purity: 95%

Color and Shape: Liquid

Molecular weight: 84.1164

Cyclopentanecarbaldehyde

CAS:

• 872-53-7

Formula: C₆H₁₀O

Purity: 95%

Color and Shape: Liquid

Molecular weight: 98.1430

Trimethylacetaldehyde

CAS:

• 630-19-3

Formula: C₅H₁₀O

Purity: 96%

Color and Shape: Liquid

Molecular weight: 86.1323

5-Nitrovanillin

CAS:

• 6635-20-7

Formula: C₈H₇NO₅

Purity: >98.0%(T)

Color and Shape: Yellow to Brown to Dark green powder to crystal

Molecular weight: 197.15

1-ethyl-3-piperidinecarbaldehyde hydrochloride

CAS:

• 1255717-79-3

Purity: 95.0%

Molecular weight: 177.6699981689453

2-(BENZYLOXY)-5-FLUOROBENZALDEHYDE

CAS:

• 312314-37-7

Purity: 95.0%

Molecular weight: 230.23800659179688

4-Piperidinylphenylglyoxal hydrate

CAS:

• 93290-93-8

Purity: 95.0%

Color and Shape: Solid

Molecular weight: 235.2830047607422

(1S,3S,5S)-Adamantane-1,3,5,7-tetracarbaldehyde

CAS:

• 853347-01-0

Purity: 95%

Molecular weight: 248.2779998779297

3-Fluoro-4-methylbenzaldehyde

CAS:

• 177756-62-6

Formula: C₈H₇FO

Purity: >95.0%(GC)

Color and Shape: Light yellow to Yellow to Orange clear liquid

Molecular weight: 138.14

8-Nonenal

Controlled Product

CAS:

• 39770-04-2

Applications 8-Nonenal is used as a reactant in the preparation of macrocyclic Z-enoates and (E,Z)- or (Z,E)-dienoates through catalytic stereoselective ring-closing metathesis.
References Zhang, H., et al.: JACS., 136, 16493 (2014)

Formula: C₉H₁₆O

Color and Shape: Neat

Molecular weight: 140.22

5-Nitrothiophene-2-carboxaldehyde

CAS:

• 4521-33-9

5-Nitrothiophene-2-carboxaldehyde (5NT) is a chemical compound that belongs to the class of dihedral molecules. It is commonly used as an antimicrobial agent and has been shown to have amoebicidal activity in tissue culture. 5NT also inhibits cell growth and proliferation in certain bacteria, such as Staphylococcus aureus strains, by interfering with DNA replication and protein synthesis. Although 5NT is not active against other types of bacteria, it has been shown to be effective against MRSA in laboratory studies. The biological properties of 5NT are still being studied.

Formula: C₅H₃NO₃S

Purity: Min. 95%

Molecular weight: 157.15 g/mol

L-(-)-Glyceraldehyde - Technical grade aqueous solution

CAS:

• 497-09-6

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Formula: C₃H₆O₃

Purity: Min. 95%

Color and Shape: Clear Viscous Liquid

Molecular weight: 90.08 g/mol