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【1】Product Backgroud
| Product Name | trans-tert-Butyl 4-bromo-2-(4-(((tert-butoxycarbonyl)(2-phenylcyclopropyl)amino)methyl)piperidin-1-yl)-7H-pyrrolo[2,3-d]pyrimidine-7-carboxylate |
| Appearance | white to off-white solid |
| Solubility | Readily soluble in organic solvents (DMSO, DMF, dichloromethane), slightly soluble in water |
| Stability | Under Boc protection, its sensitivity to air and humidity decreases, but it should be stored away from light and at low temperatures |
【2】Technical data
√ The compound, with 7H-pyrrolo[2,3-d]pyrimidine as the core, belongs to heterocyclic compounds and has potential biological activity
√ Purity can reach more than 95%
【3】Technological advantage
✓ Suitable for mg to gram magnification
✓ The synthesis process is mature
【4】Commercial application
Drug development: As an intermediate for the synthesis of kinase inhibitors (such as drugs related to the JAK/STAT pathway), or for the development of anti-tumor and anti-inflammatory compounds.
Chemical probes: They can be further derivatized by bromine atoms to label biomolecules or construct compound libraries.
Academic research: It is used to study the structure-activity relationship (SAR) and explore the effects of cyclopropyl and piperidine fragments on activity
【1】Product Backgroud
| Product Name | 1,4-Benzenedidecanoic acid |
| Cas no. | 58380-65-7 |
| Molecular formula | C26H42O4 |
| Molecular weight | 418.61 |
| Melting point | 141.5-144 °C |
| Boiling point | 589.2±23.0 °C |
| Appearance | White to off-white powder |
【2】Technical data
√ The 1,4 positions of the benzene ring are connected to two decanoic acid chains, forming symmetrical long-chain dicarboxylic acids.
√ The long chain endows hydrophobicity, and the benzene ring provides a rigid structure, which may affect the self-assembly behavior or material properties
√ Purity can reach more than 95%
【3】Technological advantage
✓ Suitable for mg to gram magnification
✓ The synthesis process is mature
【4】Commercial application
(1) Materials Science
Polymer monomers: They can be polycondensed with diols to synthesize polyester or polyamide, which is used in flexible films or fibers.
Surface modification: Long-chain carboxylic acids can be used to modify the surface of nanomaterials (such as silica) to enhance hydrophobicity.
(2) Biomedicine
Drug carriers: As lipid components, they participate in the construction of nanodelivery systems (such as liposomes).
Biological probe: Carboxyl-conjugated fluorescent labeling, used for cell membrane research.
(3) Industrial use
Lubricant additives: The long-chain structure may reduce friction, but further verification is needed.
Cosmetic matrix: As a potential component of emulsifiers or thickeners
【1】Product Backgroud
| Product name | 2,5-DIBROMO-4-METHYLTHIAZOLE |
| Cas no. | 79247-78-2 |
| Molecular formula | C4H3Br2NS |
| Molecular weight | 256.95 |
| Melting point | 22 °C |
| Boiling point | 260.7±20.0 °C |
| Storage condition | under inert gas (nitrogen or Argon) at 2-8°C |
【2】Technical data
√ The thiazole ring (a five-membered heterocyclic ring containing sulfur and nitrogen) is replaced by bromine atoms at the 2nd and 5th positions, and a methyl group is connected at the 4th position.
√ The strong electronegativity and steric hindrance of bromine atoms make them highly reactive sites, suitable for coupling or substitution reactions.
√ The introduction of methyl groups may regulate the hydrophobicity and metabolic stability of compounds.
√ Purity can reach more than 98%
【3】Technological advantage
✓ Suitable for mg to gram magnification
✓ The synthesis process is mature
【4】Commercial application
(1)Organic synthesis intermediates
Coupling reaction: Constructing complex molecules containing thiazole skeletons (such as drug or material monomers) through Suzuki or Stille coupling.
Drug development: The thiazole ring is a common pharmacophore of antibacterial and antitumor compounds (such as penicillin derivatives).
(2)Materials Science
Optoelectronic materials: Bromothiazole can be used as a precursor of conjugated polymers in OLED or semiconductor materials.
Flame retardants: Brominated compounds may be used as flame retardant additives, and their effectiveness needs to be further verified.
(3)Agricultural chemistry
Potential for use in the synthesis of insecticides or fungicides (thiazole compounds such as analogues of thiamethoxam)
【1】Product Backgroud
| Product Name | 7-Bromo-2,3-dihydro-1H-pyrido[2,3-b][1,4]oxazine |
| Cas no. | 946121-78-4 |
| Molecular formula | C7H7BrN2O |
| Molecular weight | 215.05 |
| Boiling point | 312.4±42.0 °C |
| Storage condition | under inert gas (nitrogen or Argon) at 2–8 °C |
| Appearance | Off-white solid |
【2】Technical data
√ 7-bromo-2, 3-dihydro-1h-pyridine-[2,3-b][1,4] oxazine is a polycyclic compound containing a bromine atom, featuring a unique pyridine-oxazine structure, which is suitable for a wide range of chemical synthesis applications
√ Purity can reach more than 97%
【3】Technological advantage
✓ Suitable for mg to gram magnification
✓ The synthesis process is mature
【4】Commercial application
Drug development: Due to its unique chemical structure, this compound may serve as a key intermediate or active ingredient in drug development, especially having potential application value in fields such as anti-tumor and anti-infection.
Organic synthesis: It can be used to synthesize other compounds, serving as a starting material or intermediate for reactions.
Materials science: It may serve as a functional additive or precursor when developing new materials.
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Phone: +8618791163155
Tel: +8618791163155
Email: 18791163155@163.com
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