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COO/COA

L1528

Latex beads, sulfate-modified polystyrene, fluorescent orange

Name: Latex beads, sulfate-modified polystyrene, fluorescent orange
Brand: SIGMA

aqueous suspension, 0.1 μm mean particle size

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About This Item

MDL number:

MFCD00131492

UNSPSC Code:

12352200

NACRES:

NA.56

form

aqueous suspension

composition

Solids, 2.5%

technique(s)

cell based assay: suitable

mean particle size

0.1 μm

fluorescence

λ_ex ~520 nm; λ_em ~540 nm

application(s)

cell analysis

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Application

Sulfate-modified polystyrene latex beads have been used to develop an electrochemical nitrite nanosensor as well as in voltammetric studies. Sulfate-modified polystyrene latex beads have been used to explain the partitioning behavior for certain species of bacteria.

WGK

WGK 2

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Certificates of Analysis (COA)

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Voltammetric studies of hemoglobin-coated polystyrene latex bead films on pyrolytic graphite electrodes.

Hong Sun et al.

Biophysical chemistry, 110(3), 297-308 (2004-07-02)

A novel hemoglobin (Hb)-coated polystyrene (PS) latex bead film was deposited on pyrolytic graphite (PG) electrode surface. In the first step, positively charged Hb molecules in pH 5.0 buffers were adsorbed on the surface of negatively charged, 500 nm diameter

Observation and characterisation of macrophages in zebrafish liver.

Delfine Cheng et al.

Micron (Oxford, England : 1993), 132, 102851-102851 (2020-02-25)

Kupffer cells are liver-resident macrophages that play an important role in mediating immune-related functions in mammals and humans. They are well-known for their capacity to phagocytose large amounts of waste complexes, cell debris, microbial particles and even malignant cells. Location

Electrochemical nitrite nanosensor developed with amine- and sulphate-functionalised polystyrene latex beads self-assembled on polyaniline

Muchindu, M., et al.

Electrochimica Acta, 55, 4274-4280 (2010)

Effect of ionic strength and ionic species on partitioning behavior of hydrophobic and hydrophilic polystyrene latex beads in aqueous two-phase polymer systems

Tripp, B.C., et al.

Colloids and Surfaces, B: Biointerfaces, 6, 151-164 (1996)

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