Surfactant-free Polystyrene Beads (120 nm)

<strong>Surfactant-free Polystyrene Beads (120 nm)</strong>_x000D_ <strong>Catalog number:</strong> B2013460_x000D_ <strong>Lot number:</strong> Batch Dependent_x000D_ <strong>Expiration Date:</strong> Batch dependent_x000D_ <strong>Amount:</strong> 1 ml_x000D_ <strong>Molecular Weight or Concentration:</strong> N/A_x000D_ <strong>Supplied as:</strong> Suspension_x000D_ <strong>Applications:</strong> molecular tool for various biochemical applications_x000D_ <strong>Storage:</strong> 2-8 °C_x000D_ <strong>Keywords:</strong> Surfactant free polystyrene beads_x000D_ <strong>Grade:</strong> Biotechnology grade. All products are highly pure. All solutions are made with Type I ultrapure water (resistivity &gt;18 MΩ-cm) and are filtered through 0.22 um._x000D_ _x000D_ <strong>References:</strong>_x000D_ 1: Kaur H, Das T, Kumar R, Ajore R, Bharadwaj LM. Covalent attachment of actin filaments to Tween 80 coated polystyrene beads for cargo transportation Biosystems. 2008 Apr;92(1):69-75._x000D_ 2: Wurm M, Ilhan S, Jandt U, Zeng AP. Direct and highly sensitive measurement of fluorescent molecules in bulk solutions using flow cytometry Anal Biochem. 2019 Apr 1;570:32-42._x000D_ 3: O'Connor SM, Patuto SJ, Gehrke SH, Retzinger GS. Fibrinogen-dependent adherence of macrophages to surfaces coated with poly(ethylene oxide)/poly(propylene oxide) triblock copolymers Ann N Y Acad Sci. 1997 Dec 31;831:138-44._x000D_ 4: Jha AK, Lee J, Tripathi A, Bose A. Three-dimensional confinement-related size changes to mixed-surfactant vesicles Langmuir. 2008 Jun 17;24(12):6013-7._x000D_ 5: Yu P, Li X, Li X, Lu X, Ma G, Su Z. Preparative purification of polyethylene glycol derivatives with polystyrene-divinylbenzene beads as chromatographic packing Bioorg Med Chem Lett. 2007 Oct 15;17(20):5605-9._x000D_ 6: Baker GA, Campbell ML, Yates MZ, McCleskey TM. Carbon dioxide emulsion assisted loading of polymer microspheres toward sustained release materials Langmuir. 2005 Apr 26;21(9):3730-2._x000D_ 7: Wu W, Liu X, Chen SL, Yuan Q, Gan W. Particle adsorption at the oil-water interface studied with second harmonic generation Soft Matter. 2019 Oct 14;15(38):7672-7677._x000D_ 8: Midtvedt D, Eklund F, Olsén E, Midtvedt B, Swenson J, Höök F. Size and Refractive Index Determination of Subwavelength Particles and Air Bubbles by Holographic Nanoparticle Tracking Analysis Anal Chem. 2020 Jan 21;92(2):1908-1915._x000D_ 9: Martín-Rodríguez A, Cabrerizo-Vílchez MA, Hidalgo-Álvarez R. A Comparative Study on the Adsorption of Triton X-100 and Tween 20 onto Latexes with Different Interfacial Properties J Colloid Interface Sci. 1997 Mar 1;187(1):139-47._x000D_ <a href="https://pubmed.ncbi.nlm.nih.gov/18302162">10: Jacob MK, Leena S, Kumar KS. Peptide-polymer biotherapeutic synthesis on novel cross-linked beads with "spatially tunable" and "isolated" functional sites Biopolymers. 2008;90(4):512-25. </a>_x000D_ _x000D_ <strong>Products Related to Surfactant-free Polystyrene Beads (120 nm) can be found at</strong> <a href="https://moleculardepot.com/product-category/Chemicals/"> Chemicals</a>