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Polystyrene Particles

Polystyrene Particles 

Porous Polystyrene Particles

Crosslinked Polystyrene Particles

Standard Polystyrene Particles

Polystyrene Particles -正电

Amino Polystyrene Particles  

Carboxy Polystyrene Particles

Epoxy Polystyrene Particles

Aldehyde/Sulfate Latex Particles

Ni Polystyrene Particles

Polystyrene Particles-SO3H

Amino Porous Polystyrene Particles  

Carboxy Porous Polystyrene Particles

Epoxy Porous Polystyrene Particles

Crosslinked Polystyrene Particles-NH2

Crosslinked Polystyrene Particles-COOH

Crosslinked Polystyrene Particles-Epoxy


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Yellow Latex Microspheres

Carboxy Yellow Latex Microspheres

Amino Yellow Latex Microspheres


Black Latex Microspheres

Carboxy Black Latex Microspheres

Amino Black Latex Microspheres


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Red Latex Microspheres

Carboxy Red Latex Microspheres

Amino Red Latex Microspheres



Green Latex Microspheres

Carboxy Green Latex Microspheres

Amino Green Latex Microspheres

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Purple Latex Microspheres

Carboxy Purple Latex Microspheres

Amine Purple Latex Microspheres


Blue Latex Microspheres

Carboxy Blue Latex Microspheres

Amino Blue Latex Microspheres

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Streptavidin Polystyrene Particles

Biotin Polystyrene Particles

BSA Polystyrene Particles

Avidin Polystyrene Particles

Antibody Coated Polystyrene Particles

Protein A Polystyrene Particles

Protein G Polystyrene Particles

PE labeled Polystyrene Particles

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20 nm50 nm300 nm

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1 um5 um10 um


Covalent Protein Coupling Protocol-Aldehyde;Sulfate Latex Particles.pdf

Passive Adsorption Protocol-Aldehyde;Sulfate Latex Particles.pdf

Protocol for Coupling of Proteins to CarboxylSulfate.pdf

Protocol for Coupling of Proteins to Sulfate Latex.pdf

Protocol for Coupling of Proteins to Carboxyl Latex.pdf

Determination of Antibody Binding to Particles.pdf

Particle Coating Procedures.pdf

Polystyrene Particles Centrifugal Acceleration.pdf


Publications

Cat No

Product Name

Publications

ABT-8-0040

Polystyrene Particles, 0.4 um

Chen Y, Liu Q, Yang F, Yu H, Xie Y, Yao W. Submicron-size polystyrene modulates amyloid fibril formation: From the perspective of protein corona. Colloids Surf B Biointerfaces. 2022 Aug 3;218:112736. doi: 10.1016/j.colsurfb.2022.112736. Epub ahead of print. PMID: 35981471.

ABT-8-0050

Polystyrene Particles, 0.5 um

Chen Y, Liu Q, Yang F, Yu H, Xie Y, Yao W. Submicron-size polystyrene modulates amyloid fibril formation: From the perspective of protein corona. Colloids Surf B Biointerfaces. 2022 Aug 3;218:112736. doi: 10.1016/j.colsurfb.2022.112736. Epub ahead of print. PMID: 35981471.

ABT-8-0010-NH2

Amino Polystyrene Particles, 0.1 um

Chen Y, Liu Q, Yang F, Yu H, Xie Y, Yao W. Submicron-size polystyrene modulates amyloid fibril formation: From the perspective of protein corona. Colloids Surf B Biointerfaces. 2022 Aug 3;218:112736. doi: 10.1016/j.colsurfb.2022.112736. Epub ahead of print. PMID: 35981471.

ABT-8-0010-COOH

Carboxyl Polystyrene Particles, 0.1 um

Chen Y, Liu Q, Yang F, Yu H, Xie Y, Yao W. Submicron-size polystyrene modulates amyloid fibril formation: From the perspective of protein corona. Colloids Surf B Biointerfaces. 2022 Aug 3;218:112736. doi: 10.1016/j.colsurfb.2022.112736. Epub ahead of print. PMID: 35981471.

ABZ-50

Gold Nanostars, 50nm

Tian Z, Haohan S, Liyun D, et al. Single-Particle Catalytic Analysis by a Photon Burst Counting Technique Combined with a Microfluidic Chip[J]. Analytical chemistry, 2021.

ABZ-4-50

Gold Nanoshell, 50nm

Tian Z, Haohan S, Liyun D, et al. Single-Particle Catalytic Analysis by a Photon Burst Counting Technique Combined with a Microfluidic Chip[J]. Analytical chemistry, 2021.

ABZ-11-55

Gold Nanocubes, 55 nm

Tian Z, Haohan S, Liyun D, et al. Single-Particle Catalytic Analysis by a Photon Burst Counting Technique Combined with a Microfluidic Chip[J]. Analytical chemistry, 2021.

ABZW-1-50

Gold Nanoparticles, 50 nm

Xin Li, Fei Wang, Xue Wang, et al. Plasmonic-photonic hybrid configuration on optical fiber tip:Toward low-cost and miniaturized biosensing probe[J]. Sensors & Actuators:B.Chemical, 2022. ()

ABNW-9-980

Gold Nanorods, 9 nm, 980±10 nm

杨茜茹,沈朝,张春晓,张承虎.太阳能光热转化中金纳米棒流体光学特性的实验研究[J].西安建筑科技大学学报(自然科学版),2021,53(06):791-796.DOI:10.15986/j.1006-7930.2021.06.001.

ABNW-9-980

Gold Nanorods, 9 nm, 980±10 nm

杨茜茹. 基于纳米棒流体的直接吸收式太阳能集热器的性能研究[D].哈尔滨工业大学,2021.DOI:10.27061/d.cnki.ghgdu.2021.003648.

ABZW-12-60

Silver Nanoparticles,  60 nm

Wu J, Cai J, Fan Y, Zhang Y, Fang H, Yan S. Effective Enrichment of Plasmonic Hotspots for SERS by Spinning Droplets on a Slippery Concave Dome Array. Biosensors (Basel). 2022

ABL-1-71

Aldehyde/Sulfate Latex Beads

周思思. 基于外泌体的肿瘤诊断与药物递送研究[D].东南大学,2021.DOI:10.27014/d.cnki.gdnau.2021.000011.

ABT-8-0030

Polystyrene Particles, 0.3 um

Xuqing Sun, Hongyao Liu, Liwen Jiang, Ruxue Wei, Chang Wang, Xue Wang, Xiaojuan Sun, Fei Wang, Xinchao Lu, Andrey B. Evlyukhin, and Chengjun Huang, "Directional surface plasmon polariton scattering by single low-index dielectric nanoparticles: simulation and experiment," Photon. Res. 11, 765-772 (2023)

ABT-8-0080

Polystyrene Particles, 0.8 um

Xuqing Sun, Hongyao Liu, Liwen Jiang, Ruxue Wei, Chang Wang, Xue Wang, Xiaojuan Sun, Fei Wang, Xinchao Lu, Andrey B. Evlyukhin, and Chengjun Huang, "Directional surface plasmon polariton scattering by single low-index dielectric nanoparticles: simulation and experiment," Photon. Res. 11, 765-772 (2023)

ABT-8-0500-NH2

Amino Polystyrene Particles, 5 um-NH2

Liu B, Gao Y, Yue Q, Guo K, Gao B. The suitability and mechanism of polyaluminum-titanium chloride composite coagulant (PATC) for polystyrene microplastic removal: Structural characterization and theoretical calculation. Water Res. 2023 Apr 1;232:119690. doi: 10.1016/j.watres.2023.119690. Epub 2023 Feb 2. PMID: 36758354.

ABT-8-0500

Polystyrene Particles, 5 um

Liu B, Gao Y, Yue Q, Guo K, Gao B. Microcosmic mechanism analysis of the combined pollution of aged polystyrene with humic acid and its efficient removal by a composite coagulant. J Hazard Mater. 2023 Aug 10;459:132272. doi: 10.1016/j.jhazmat.2023.132272. Epub ahead of print. PMID: 37573824.