Catalog |
name |
Description |
price |
R-M1-9053 |
endo-BCN-PEG3-Boc-amine,cas1807501-84-3 |
Endo-BCN-PEG3-Boc-amine is a chemical compound that consists of an alkene functional group (BCN) and a polyethylene glycol chain (PEG3) attached to an amine group, which is also protected with a Boc (tert-butoxycarbonyl) group. The Boc group serves as a protecting group for the amine and can be removed under mild acidic conditions, allowing for selective deprotection and subsequent chemical modifications.
This compound is often used in bioconjugation and functionalization chemistry for linking molecules in biological and medical research. The presence of the PEG3 chain can provide increased water solubility and biocompatibility to the compound, making it useful for applications in drug delivery and targeted therapy. The Boc protection allows for controlled deprotection for specific chemical reactions. |
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R-M1-9054 |
endo-BCN-PEG4-Biotin |
Endo-BCN-PEG4-Biotin is commonly used in bioconjugation and functionalization chemistry for linking molecules in biological and medical research. The presence of the PEG4 chain can provide increased water solubility and biocompatibility to the compound, making it useful for applications in drug delivery, targeted therapy, and affinity chromatography. |
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R-M1-9055 |
endo-BCN-PEG2-acrylate |
Endo-BCN-PEG2-acrylate is a chemical compound that comprises an endo-tetrazine-BCN conjugate with a polyethylene glycol (PEG2) chain and an acrylate functional group. This compound is commonly used in bioconjugation and functionalization reactions for linking molecules in biological and medical research. |
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R-M1-9056 |
Benzyl-PEG4-acid,cas127457-64-1 |
Benzyl-PEG4-acid refers to a compound composed of a benzylic acid group and a polyethylene glycol (PEG4) chain. The PEG4 chain is made up of four repeating ethylene glycol units. This compound is commonly utilized in chemical biology, medicinal chemistry, and bioconjugation applications, where the PEG4 segment provides enhanced water solubility and biocompatibility. |
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R-M1-9057 |
Benzyl-PEG13-alcohol,CAS26403-74-7 |
Benzyl-PEG13-alcohol is often utilized in bioconjugation, chemical biology, and medicinal chemistry applications.
The hydrophilic nature of the PEG13 chain provides enhanced water solubility and biocompatibility to the compound, making it suitable for applications in drug delivery, nanotechnology, and biomaterials. The benzyl group and the alcohol functional group can be utilized for further chemical modifications and bioconjugation strategies or as a structural component in the synthesis of various macromolecules or pharmaceutical compounds. |
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R-M1-9058 |
Benzyl-PEG2-amine |
Benzyl-PEG2-amine is commonly employed in bioconjugation, medicinal chemistry, and various biochemical applications.The presence of the PEG2 chain provides enhanced water solubility and biocompatibility, making it suitable for applications in drug delivery, targeted therapy, and biomaterial development. The amine functional group can be utilized for bioconjugation strategies, enabling the compound to be used in the synthesis of various molecular constructs or as a linker in bioconjugation techniques. The benzyl group can also participate in further chemical modifications, adding versatility to its potential applications. |
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R-M1-9059 |
Benzyl-PEG5-amine,cas86770-77-6 |
Benzyl-PEG5-amine is a PEG linker containing a benzyl protecting group and a free terminal amine. Benzyl groups are used to protect alcohol moieties and can be removed via hydrogenolysis. The primary amine can react with carboxylic acids, activated NHS esters and other carbonyl compounds. The hydrophilic PEG linkers increase the water solubility of a compound in aqueous media. |
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R-M1-9060 |
endo-BCN-PEG12-acid,cas2183440-27-7 |
endo-BCN-PEG12-acid is amonodisperse PEG reagent containing a BCN group and a terminal carboxylic acid. The terminal carboxylic acid can react with primary amine groups in the presence of activators (e.g. EDC or HATU) to form a stable amide bond. The BCN group enable click chemistry with azide -tagged molecules. The hydrophilic PEG spacer increases solubility in aqueous media. |
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R-M1-9061 |
bis-PEG4-endo-BCN |
Bis-PEG4-endo-BCN is commonly used in bioconjugation and functionalization chemistry for linking molecules in biological and medical research.The PEG4 chains in Bis-PEG4-endo-BCN provide increased water solubility and biocompatibility, making it suitable for applications in drug delivery, targeted therapy, and biomaterial development. The endo-tetrazine-BCN conjugate can participate in bioorthogonal chemical reactions, allowing specific and selective functionalization or labeling of biological molecules. |
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R-M1-9062 |
Benzyl-PEG2-CH2CO2H,cas 93206-09-8 |
Benzyl-PEG2-CH2CO2H refers to a chemical compound consisting of a benzyl group linked to a polyethylene glycol (PEG2) chain, with a carboxylic acid functional group at the end. The PEG2 segment contains two ethylene glycol units. This type of compound finds applications in a variety of fields, including bioconjugation, medicinal and pharmaceutical chemistry, and materials science.The presence of the PEG2 chain confers enhanced water solubility and biocompatibility, making the compound suitable for use in drug delivery systems, surface modification, and biomaterial synthesis. The carboxylic acid group can be employed for bioconjugation strategies, enabling the compound to serve as a linker molecule or as a starting point for further chemical modifications, adding significant versatility to its potential applications. |
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