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Monodispersed PEGs
- >Methoxy PEG (mPEG)
- >Azide(N3) PEG
- >Amine(NH2) PEG
- >Hydroxyl(OH) PEG
- >Thiol(SH) PEG
- >Boc/Fmoc PEG
- >Carboxylic Acid(COOH) PEG
- >Maleimide(Mal) PEG
- >NHS ester PEG
- >Biotin PEG
- >Aldehyde (Ald/CHO)PEG
- >Acrylate(AC) PEG
- >Acrylamide(ACA) PEG
- >DBCO PEG
- >DSPE PEG
- >Other Lipid PEG
- >Fluorescent (FITC) PEG
- >Rhodamine B(RB) PEG
- >Cholesterol PEG
- >OPSS PEG
- >Epoxide (EPO) PEG
- >Hydrazide (HZ) PEG
- >Folic Acid(FA) PEG
- >Lipoic acid(LA) PEG
- >Methacrylate (MA) PEG
- >Silane PEG
- >PEG Sulfonic acid
- >PEG PFP ester
- >PEG TFP ester
- >Halide (F,Cl,Br,I) PEG
- >Benzyl-PEG
- >Aminooxy PEG
- >Hydrocarbons PEG
- >Nitrophenyl Carbonate (NPC) PEG
- >DNP PEG
- >Other PEG
- >PROTAC Linker
- >View More
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Polydispersed PEGs
- >Methoxy PEG (mPEG)
- >Azide(N3) PEG
- >Amine(NH2) PEG
- >Hydroxyl(OH) PEG
- >Thiol(SH) PEG
- >DSPE PEG
- >Carboxylic Acid(COOH) PEG
- >Maleimide(Mal) PEG
- >NHS ester PEG
- >Other Lipid PEG
- >Acrylate(AC) PEG
- >Boc/Fmoc PEG
- >Biotin PEG
- >Aldehyde (Ald/CHO)PEG
- >Fluorescent (FITC) PEG
- >Cyanine (Cy) PEG
- >Rhodamine B(RB) PEG
- >Cholesterol PEG
- >OPSS PEG
- >Acrylamide(ACA) PEG
- >Epoxide (EPO) PEG
- >Hydrazide (HZ) PEG
- >Folic Acid(FA) PEG
- >Lipoic acid(LA) PEG
- >Methacrylate (MA) PEG
- >Silane PEG
- >PLGA PEG
- >PCL PEG
- >PLA PEG
- >PEG Sulfonic acid
- >PEG PFP ester
- >Halide (F,Cl,Br,I) PEG
- >Aminooxy PEG
- >DBCO PEG
- >Hydrocarbons PEG
- >Nitrophenyl Carbonate (NPC) PEG
- >Other PEG
- >View More
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Multi-arm PEGs
- >Hydroxyl(OH) PEG
- >NHS ester PEG
- >Amine(NH2) PEG
- >Maleimide(Mal) PEG
- >Azide(N3) PEG
- >Thiol(SH) PEG
- >DBCO PEG
- >Carboxylic Acid(COOH) PEG
- >Aldehyde (Ald/CHO)PEG
- >Methoxy PEG (mPEG)
- >Acrylate(AC) PEG
- >Biotin PEG
- >Cholesterol PEG
- >OPSS PEG
- >Acrylamide(ACA) PEG
- >Epoxide (EPO) PEG
- >Hydrazide (HZ) PEG
- >Folic Acid(FA) PEG
- >Lipoic acid(LA) PEG
- >Methacrylate (MA) PEG
- >Silane PEG
- >Halide (F,Cl,Br,I) PEG
- >Hydrocarbons PEG
- >Nitrophenyl Carbonate (NPC) PEG
- >Other PEG
- >View More
- PEGs by Application
- Lipids for Lipid Nanoparticles
- PEG Raw Material
CatalogID: 10196 Purity: ≥95%
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Synonyms:
Rhodamine B-PEG-Thiol
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Purity:
≥95% -
Recommended Storage Condition:
Store at -5°C,keep in dry and avoid sunlight. -
Uses:
Applicated in medical research, drug-release, nanotechnology and new materials research, cell culture. In the study of ligand, polypeptide synthesis support, a graft polymer compounds, new materials, and polyethylene glycol-modified functional coatings and other aspects of the active compound.
RB-PEG-SH is a fluorescent PEG derivative. It is also a linear heterobifunctional PEG reagent with a Rhodamine B, TAMRA or TMR dye and Thiol group, RB-PEG-SH is a commonly used red fluorescent dye tracer in biology for staining cells, tissues, biomarkers, Thiol(SH) group can react with maleimide and transition metal surface including gold (Gold nanoparticles-SH-PEG-Rhodamine B).
Cited Publications
This PEG derivative has been cited in peer-reviewed scientific publications. Browse the references below to learn more.
- Cell-sheet shape transformation by internally-driven, oriented forces, Junrou Huang, Juan Chen, Yimin Luo, bioRxiv 2024.11.28.625908; doi: https://doi.org/10.1101/2024.11.28.625908
- Clickable PEG-norbornene microgels support suspension bioprinting and microvascular assembly
Irene W. Zhang, Lucia S. Choi, Nicole E. Friend, Atticus J. McCoy, Firaol S. Midekssa, Eben Alsberg, Sasha Cai Lesher-Pérez, Jan P. Stegemann, Brendon M. Baker, Andrew J. Putnam, bioRxiv 2024.11.15.623424; doi: https://doi.org/10.1101/2024.11.15.623424 - DiMartini, E.T.; Lowe, C.J.; Shreiber, D.I. Alternative Chemistries for Free Radical-Initiated Targeting and Immobilization. J. Funct. Biomater. 2023, 14, 153. https://doi.org/10.3390/jfb14030153
- Yuan, M., Yan, T., Li, J., Xiao, Z., Fang, Y., Wang, Y., Zhou, H., & Pellois, J. (2021). Superparamagnetic iron oxide–gold nanoparticles conjugated with porous coordination cages: Towards controlled drug release for non-invasive neuroregeneration. Nanomedicine: Nanotechnology, Biology and Medicine, 35, 102392. https://doi.org/10.1016/j.nano.2021.102392
- Polycationic gold nanorods as multipurpose in vitro microtubule markers, Viktoria Wedler, Fabian Strauß, Swathi Sudhakar, Gero Lutz Hermsdorf, York-Dieter Stierhof, Erik Schäffer, bioRxiv 2020.04.25.061127; doi: https://doi.org/10.1101/2020.04.25.061127
View more publications citing Biopharma PEG products.

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