聚苯乙烯微球(PS微球)是指由苯乙烯单体经自由基聚合反应合成的聚合物微球,可通过悬浮聚合,乳液聚合,分散聚合等方法来制备。
聚苯乙烯微球粒径均一,化学稳定性好,粘附性低,疏水性强。既有封闭的微孔结构,又有较高的强度和良好的化学稳定性,可应用于生物医学检测,药物控释,生物传感,酶催化,细胞标记,光学,高分子改性等多个领域。
百欧泰生物提供不同粒径大小的高质量聚苯乙烯微球(20 nm-3 mm)。提供不同表面修饰的聚苯乙烯微球,如PS羧基微球,PS氨基微球,PS环氧基微球等。还提供标记服务,如与荧光分子,链霉亲和素,蛋白质,核酸探针分子等偶联的聚苯乙烯微球。产品各批次间重复性高,富含负电荷,易于表面改性和修饰。可以满足各类客户研发,试验及生产消费等不同个性化材料需求。
Cat No | Product Name | Concentration | Size |
ABT-8-0005-COOH | Polystyrene Particles, 50 nm-COOH | 5.00% | 10 ml |
ABT-8-0008-COOH | Polystyrene Particles, 80 nm-COOH | 5.00% | 10 ml |
ABT-8-0010-COOH | Polystyrene Particles, 0.1 um-COOH | 5.00% | 10 ml |
ABT-8-0020-COOH | Polystyrene Particles, 0.2 um-COOH | 5.00% | 10 ml |
ABT-8-0030-COOH | Polystyrene Particles, 0.3 um-COOH | 5.00% | 10 ml |
ABT-8-0040-COOH | Polystyrene Particles, 0.4 um-COOH | 5.00% | 10 ml |
ABT-8-0050-COOH | Polystyrene Particles, 0.5 um-COOH | 5.00% | 10 ml |
ABT-8-0060-COOH | Polystyrene Particles, 0.6 um-COOH | 5.00% | 10 ml |
ABT-8-0070-COOH | Polystyrene Particles, 0.7 um-COOH | 5.00% | 10 ml |
ABT-8-0080-COOH | Polystyrene Particles, 0.8 um-COOH | 5.00% | 10 ml |
ABT-8-0090-COOH | Polystyrene Particles, 0.9 um-COOH | 5.00% | 10 ml |
ABT-8-0100-COOH | Polystyrene Particles, 1 um-COOH | 5.00% | 10 ml |
ABT-8-0200-COOH | Polystyrene Particles, 2 um-COOH | 5.00% | 10 ml |
ABT-8-0300-COOH | Polystyrene Particles, 3 um-COOH | 5.00% | 10 ml |
ABT-8-0400-COOH | Polystyrene Particles, 4 um-COOH | 5.00% | 10 ml |
ABT-8-0500-COOH | Polystyrene Particles, 5 um-COOH | 5.00% | 10 ml |
ABT-8-0600-COOH | Polystyrene Particles, 6 um-COOH | 5.00% | 10 ml |
ABT-8-0700-COOH | Polystyrene Particles, 7 um-COOH | 5.00% | 10 ml |
ABT-8-0800-COOH | Polystyrene Particles, 8 um-COOH | 5.00% | 10 ml |
ABT-8-0900-COOH | Polystyrene Particles, 9 um-COOH | 5.00% | 10 ml |
ABT-8-1000-COOH | Polystyrene Particles, 10 um-COOH | 5.00% | 10 ml |
ABT-8-1100-COOH | Polystyrene Particles, 11 um-COOH | 5.00% | 10 ml |
ABT-8-1200-COOH | Polystyrene Particles, 12 um-COOH | 5.00% | 10 ml |
ABT-8-1300-COOH | Polystyrene Particles, 13 um-COOH | 5.00% | 10 ml |
ABT-8-1400-COOH | Polystyrene Particles, 14 um-COOH | 5.00% | 10 ml |
ABT-8-1500-COOH | Polystyrene Particles, 15 um-COOH | 5.00% | 10 ml |
ABT-8-1700-COOH | Polystyrene Particles, 17 um-COOH | 5.00% | 10 ml |
ABT-8-1800-COOH | Polystyrene Particles, 18 um-COOH | 5.00% | 10 ml |
ABT-8-2000-COOH | Polystyrene Particles, 20 um-COOH | 5.00% | 10 ml |
ABT-8-2200-COOH | Polystyrene Particles, 22 um-COOH | 5.00% | 10 ml |
ABT-8-2300-COOH | Polystyrene Particles, 23 um-COOH | 5.00% | 10 ml |
ABT-8-2400-COOH | Polystyrene Particles, 24 um-COOH | 5.00% | 10 ml |
ABT-8-2500-COOH | Polystyrene Particles, 25 um-COOH | 5.00% | 10 ml |
ABT-8-3000-COOH | Polystyrene Particles, 30 um-COOH | 5.00% | 10 ml |
ABT-8-4000-COOH | Polystyrene Particles, 40 um-COOH | 5.00% | 10 ml |
ABT-8-5000-COOH | Polystyrene Particles, 50 um-COOH | 5.00% | 10 ml |
ABT-8-6000-COOH | Polystyrene Particles, 60 um-COOH | 5.00% | 10 ml |
ABT-8-7000-COOH | Polystyrene Particles, 70 um-COOH | 5.00% | 10 ml |
ABT-8-8000-COOH | Polystyrene Particles, 80 um-COOH | 5.00% | 10 ml |
ABT-8-9000-COOH | Polystyrene Particles, 90 um-COOH | 5.00% | 10 ml |
ABT-8-10000-COOH | Polystyrene Particles, 100 um-COOH | 5.00% | 10 ml |
ABT-8-20000-COOH | Polystyrene Particles, 200 um-COOH | 5.00% | 10 ml |
ABT-8-30000-COOH | Polystyrene Particles, 300 um-COOH | 5.00% | 10 ml |
ABT-8-40000-COOH | Polystyrene Particles, 400 um-COOH | 5.00% | 10 ml |
ABT-8-50000-COOH | Polystyrene Particles, 500 um-COOH | 5.00% | 10 ml |
ABT-8-60000-COOH | Polystyrene Particles, 600 um-COOH | 5.00% | 10 ml |
ABT-8-70000-COOH | Polystyrene Particles, 700 um-COOH | 5.00% | 10 ml |
ABT-8-80000-COOH | Polystyrene Particles, 800 um-COOH | 5.00% | 10 ml |
ABT-8-90000-COOH | Polystyrene Particles, 900 um-COOH | 5.00% | 10 ml |
ABT-8-100000-COOH | Polystyrene Particles, 1000 um-COOH | 5.00% | 10 ml |
说明书-Carboxyl Polystyrene Particles.pdf
Note: If you need other particle diameters and concentrations, please contact the following customer service.
TEM
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. |
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