Catalog |
name |
Description |
price |
R-C-5532 |
Poly-D-lysine hydrobromide |
Poly-D-lysine hydrobromide, often referred to as PDL, is a synthetic polymer made up of D-lysine monomers. It is a positively charged compound commonly used in cell and tissue culture applications.Due to its biocompatibility, PDL is often incorporated into biodegradable or biocompatible materials to promote cell adhesion and tissue regeneration in tissue engineering or regenerative medicine applications. |
price> |
R-C-5535 |
POLY(L-ARGININE HYDROCHLORIDE) THIOL |
Poly(L-arginine hydrochloride) thiol is a polymer compound that contains the amino acid L-arginine bound to a hydrochloride salt and modified with a thiol functional group.Poly(L-arginine hydrochloride) is a positively charged polymer derived from the natural amino acid L-arginine, which is positively charged at physiological pH. This polymer has been studied for various biomedical applications due to its properties, such as its ability to enhance cell penetration, antimicrobial activity, and potential use in drug delivery systems. |
price> |
R-C-5536 |
POLY(L-ARGININE HYDROCHLORIDE)- AZIDE |
Poly(L-arginine hydrochloride) azide refers to a polymer compound that contains the amino acid L-arginine bound to a hydrochloride salt and modified with an azide functional group.The polymer has been explored for various applications such as cell penetration enhancement, antimicrobial activity, and drug delivery systems. |
price> |
R-C-5537 |
POLY(D-LYSINE HYDROBROMIDE), CAS:27964-99-4 |
Poly(D-lysine hydrobromide)is a synthetic polymer that is derived from the natural amino acid D-lysine and is modified with a hydrobromide salt.The addition of a hydrobromide salt modifies the polymer,resulting in Poly(D-lysine hydrobromide).The hydrobromide salt serves to enhance the solubility and stability of the polymer in aqueous solutions. |
price> |
R-C-5538 |
POLY(D,L-LYSINE HYDROBROMIDE), CAS#61686-25-7 |
Poly-D,L-lysine(PDL)is a synthetic polymer derived from the amino acid lysine. This property makes PDL useful in gene delivery systems,where it can condense and protect DNA for efficient delivery into cells. It can also be used as a coating material for tissue culture dishes, facilitating cell adhesion. |
price> |
R-C-5539 |
POLY(L-ORNITHINE HYDROCHLORIDE), CAS#26982-21-8 |
Poly(L-ornithine hydrochloride) is a synthetic polymer derived from the natural amino acid L-ornithine and modified with a hydrochloride salt.Poly(L-ornithine hydrochloride) has been studied for various biomedical applications.It can be used as a coating material in tissue engineering or regenerative medicine applications, providing enhanced cell adhesion and proliferation. |
price> |
R-C-5540 |
POLY(L-HOMOARGININE HYDROCHLORIDE) |
Poly(L-homoarginine hydrochloride) is a synthetic polymer derived from the natural amino acid L-homoarginine and modified with a hydrochloride salt.Poly(L-homoarginine hydrochloride) is a cationic polymer due to the positively charged amino groups present in its structure.This positive charge enables it to interact with negatively charged molecules,such as nucleic acids or cell membranes. |
price> |
R-C-5609 |
PLA-SS-mPEG |
methyl-Polyethylene glycol-S-S-Poly(D,L-lactide)is an amphiphilic AB block copolymer,the PLA and PEG are linked by disulfidebond, As a commonly used biodegradable polymer mPEG-S-S-PLA can self-assembleinto polymeric micelles, when the micelle encounters DTT, the disulfide bondbreaks and accelerates the release of the drug. |
price> |
R-C-5695 |
Glucose-PEG2000-PLA 4000-5000 |
PLA-PEG-Glucose,PLLA-PEG-Glucose,PDLLA-PEG-Glucose,Poly(lactic acid) (PLA) is a biodegradable polymer derived from renewable resources such as corn or sugarcane.Polyethylene glycol (PEG) is a hydrophilic polymer that has excellent biocompatibility and solubility characteristics. Glucose, a monosaccharide, is added to the copolymer for its potential biological activity and compatibility. |
price> |
R-C-5696 |
PLA4000-5000-PEG2000-OH |
PLA-PEG-OH,PLLA-PEG-hydroxyl,PDLLA-PEG-OH,PLLA is a biodegradable polymer with good biocompatibility and biodegradability. It has extensive applications in the fields of medicine and pharmaceuticals, and can be used to prepare drug delivery systems, tissue repair scaffolds, sutures, and so on.PEG is a multifunctional polymer with good biocompatibility, water solubility, and biological inertness.The hydroxyl (-OH) functional group of PLLA-PEG-OH reagent can be used for further modification or modification, such as coupling or reacting with other compounds to prepare polymer materials with specific functionalities. |
price> |