Bangs Lab熒光羧基聚苯乙烯:
熒光羧基微球是通過將染料擴散或包埋到聚合物基質中,隨后對表面進行功能化而制成的�����。因此��,整個表面都可用于您感興趣的生物分子的共價連接��。
嵌入熒光團�����、表面包覆羧基的微球含有銪(Ⅲ)螯合物����,用于側流實驗中的時間分辨熒光檢測,Bangs Lab的產品具有強熒光�����,可提供清晰的讀數����。Bangs Lab還提供PolyLink蛋白質偶聯試劑盒��,其中含有適當配制的試劑,用于與Bangs Lab的羧基化微球進行偶聯���。
| CAT.# | PRODUCT NAME | SPEC RANGE | FLUORESCENT EX/EM(NM) |
| 21960 | Europium Chelate COOH Sampler Pack(1mL each diameter) | 0.1um,0.2um,0.3um,0.4um | 365/610 |
| FCEU001 | Fluorescent Carboxyl Polystyrene Microspheres,Europium
Chelate-0.10μm | 0.090-0.110um | 365/610 |
| FCEU002 | Fluorescent Carboxyl Polystyrene Microspheres,Europium
Chelate-0.20μm | 0.190-0.210um | 365/610 |
| FCEU003 | Fluorescent Carboxyl Polystyrene Microspheres,Europium
Chelate -0.30μm | 0.270-0.330um | 365/610 |
| FCEU004 | Fluorescent Carboxy Polystyrene Microspheres,Europium
Chelate -0.40μm | 0.370-0.430um | 365/610 |
羧基銪螯合物納米顆粒
Bangs Lab的高熒光銪(Ⅲ)納米顆粒不僅具有卓越的穩定性����,還擁有功能化的羧基化表面���,可用于配體的共價連接���。Bangs Lab的銪(Ⅲ)納米顆粒已被用于開發基于時間分辨(TRF)熒光的高靈敏度實驗(微孔板、側流)以及化學發光實驗中的顆粒標簽��。這些微球以約1%固體含量(質量體積比)的水懸浮液形式提供����。查看激發和發射光譜,了解Bangs Lab在銪螯合物宣傳冊中與競爭對手的對比情況�。
SDS DG 130,染色聚合物顆粒�����,染色羧基聚合物顆粒��,染色聚合物顆粒,染色羧基聚合物顆粒�����,熒光聚合物顆粒��,熒光羧基聚合物顆粒��,銪螯合物COOH樣品包
熒光羧基聚苯乙烯
生物分子可以共價固定到羧基功能化的微球上�。熒光羧基微球以約1%固體含量(質量體積比)的水懸浮液形式提供,標準包裝體積為1毫升�、5毫升、10毫升和100毫升�。另請查看Bangs Lab的Quantumplex試劑盒,用于懸浮陣列開發��。
| CAT.# | PRODUCT NAME | SPEC RANGE | FLUORESCENT EX/EN |
| FCDG001 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
0.05um | 0.040-0.060um | 480/520 |
| FCDG002 | Fluorescent Carboxyl Polystyrene Microsphees,Dragon Green-
0.10um | 0.090-0.110um | 480/520 |
| FCDG003 | FluorescentCarboxyl Polystyrene Microspheres,Dragon Green-
0.20um | 0.190-0.210um | 480/520 |
| FCDG004 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
0.40um | 0.370-0.430um | 480/520 |
| FCDG005 | Fluorescent Carboxvl Polystyrene Microspheres,Dragon Green
0.50um | -0470-0.530un | 480/520 |
| FCDG006 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
1.0um | 0.95-1.05um | 480/520 |
| FCDG008 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
5.0um | 4.80-5.20um | 480/520 |
| FCDG009 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
10.0um | 9.50-10.50um | 480/520 |
| FCDG011 | Fluorescent Carboxyl Polystyrene Microspheres,Dragon Green-
15.0um | 14.50-15.50um | 480/520 |
| FCEG006 | Fluorescent Carboxyl Polystyrene Microspheres,Envy Green-
1.0um | 0.95-1.05um | 525/565 |
| FCEG008 | Fluorescent Carboxyl Polystyrene Microspheres,Envy Green-
5.0um | 4.80-5.20um | 525/565 |
| FCFR001 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
0.05um | 0.040-0.060um | 660/690 |
| FCFR003 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
0.20um | 0.190-0.210um | 660/690 |
| FCFR004 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
0.40um | 0.370-0.430um | 660/690 |
| FCFR005 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
0.50um | 0.470-0.530um | 660/690 |
| FCFR006 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
1.0um | 0.95-1.05um | 660/690 |
| FCFR008 | Fluorescent Carboxyl Polystyrene Microspheres,Flash Red-
5.0um | 4.80-5.20um | 660/690 |
| FCGB003 | Fluorescent Carboxyl Polystyrene Microspheres,Glacial Blue-
0.20um | 0.190-0.210um | 360/450 |
文獻參考:
Lee, M, Reece, P, Marchington, R, Metzger, N, Dholakia, K (2007) Construction and calibration of an optical trap on a fluorescence optical microscope. Nat. Protocols V.2 p3226-3238
Mattheyses, A, Simon, S, Rappoport, J (2010) Imaging with total internal reflection fluorescence microscopy for the cell biologist J Cell Sci 123: 3621-3628
Sun, Z, Martinez-Lemus, L, Trache, A, Trzeciakowski, J, Davis, G, Pohl, U, Meininger,G (2005) Mechanical properties of the interaction between fibronectin and α5β1-integrin on vascular smooth muscle cells studied using atomic force microscopy. Am J Physiol Heart Circ Physiol, 289(6) H2526-H2535
Ogilvie, J, Beaurepaire, E, Alexandrou, A, Joffre, M, (2006) Fourier-transform coherent anti-Stokes Raman scattering microscopy. Optics Letters, Optical Society of America, 31(4), p480-2.
Chen X, Wang J, Versluis M, de Jong N, Villanueva FS.(2013) Ultra-fast bright field and fluorescence imaging of the dynamics of micrometer-sized objects. Review of Scientific Instruments 84,063701
Yang Z, Rutherford B, McDonald R, & Houston JP. (2017) Development of far-red and ultraviolet digital frequency-domain flow cytometry systems. IEEE Journal of Selected Topics in Quantum Electronics, 23(3), 59-63.(Flash Red & Glacial Blue microspheres to determine detection sensitivity in a Far-Red and UV modified instrument)
