nanomicronspheres

microspheres

The Application of Chemiluminescent Magnetic Beads

Introduction to Chemiluminescent Magnetic Beads Chemiluminescent magnetic beads are a type of sandwich structure magnetic beads that contain a porous polymer core, which is coated with special polymer materials to obtain specific surface properties. Magnetic materials are filled in the gaps between the two, which can enable the microspheres to achieve greater buoyancy and uniform […]

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Surface modified microspheres

Magnetic Microspheres for Nucleic Acid Extraction

Specially designed for nucleic acid extraction and purification, with surface modification of a large number of silanol groups (silanol groups), it can undergo specific binding with nucleic acids in solution under high salt and low pH conditions through hydrophobic, hydrogen bonding, and electrostatic interactions, without binding with other impurities (such as proteins), quickly separating nucleic

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fluorescent microspheres

Lateral Flow Chromatography Fluorescence Microsphere Application

Fluorescent microspheres are obtained by post dyeing latex microspheres, with fluorescent dyes embedded inside the microspheres. The fluorescence signal is stable and will not leak. Therefore, there is no need to worry about changes in fluorescence intensity caused by dye leakage, nor about the impact of dyes on the crosslinking of microspheres and proteins. SHBC

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Latex Microspheres

Lateral Flow Chromatography – Application of Colored Microspheres

SHBC colored microspheres are obtained by dyeing latex white microspheres, filled with nearly 20% oil soluble dyes in the matrix inside the microspheres. The color is bright and stable, which can present different color bands for different detection items of the same test strip and solve the problem of mutual interference when multiple items are

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Amino magnetic beads magnetic microspheres

Application of Latex to Enhance Immune Turbidity

SHBC latex microspheres (50nm-400nm) can be applied in particle enhanced immunoturbidimetry, an improved immunoturbidimetric analysis method based on polyclonal antibodies. Genetic engineering methods are used to combine antibodies with latex particles, and when antigen antibodies combine, an antigen antibody latex microparticle complex is formed, enhancing reaction absorbance. Solid phase immunoassay, latex agglutination test, and microsphere

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Photonic Crystal Preparation

Photonic crystals (Photonic Crystal) was founded in 1987 by S. John and E. YablonovitchProposed independently, it is an artificial microstructure formed by the periodic arrangement of media with different refractive indices. Photonic crystals are photonic bandgap materials, and from the perspective of material structure, photonic crystals are a class of artificially designed and manufactured crystals with periodic dielectric structures at the

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nanomicron spheres

High-quality magnetic beads help single-cell sequencing efficiency increase

The history of single cell sequencing Single cell sequencing (SCS) technology refers to the sequencing of the genetic information carried by cells at the level of a single cell, aiming to obtain gene sequences, transcripts, proteins and epigenetic information of a certain cell type and conduct the integrated analysis. It has been widely used in

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nanomicron spheres

Why are colored microspheres selected as markers for more and more COVID-19 antigen tests?

A lateral flow test (LFT),[1] also known as a lateral flow device (LFD), lateral flow immunochromatographic assay, or rapid test, is a simple device intended to detect the presence of a target substance in a liquid sample without the need for specialized and costly equipment. LFTs are widely used in medical diagnostics in the home,

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nanomicron spheres

Advantages Of Time-Resolved Fluorescence Beads

Time-resolved fluorescence beads, as a special type of functional microspheres, are polystyrene microspheres internally embedded with complexes of rare earth ions. The rare earth ions commonly used for internal embedding include Eu3+, Tb3+, Sm3+, and Dy3+. When these rare earth ions form complexes with certain ligands such as β-diketones and aromatic amines, they can absorb

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