TCSPC时域法时间分辨荧光光谱仪ChronosBH
简介︰
ChronosBH是一款时域法 (TCSCP) 紧凑型荧光光谱仪,用于在皮秒至秒这样较宽的时间尺度范围进行荧光衰变时间测量。该仪器的设计采用T式样几何结构,可用于在两个荧光发射通道上同时采集信号。各种脉冲光源都可以与ChronosBH连接,其中包括半导体激光器、LED,超连续激光器和超快激光器。探测器可从快速PMT、混合型PMT和砷化镓 (GaAs) PMT,SPAD中选择。该仪器还可以被升级,升级后能使用氙灯进行稳态荧光测量。
ChronosBH的操作是全自动的;仪器控制、数据采集及处理是通过多维光谱学软件Vinci完成的。
ChronosBH的关键特征
►拥有灵活的仪器结构和兼容各种激发光源;
►占地面积小,为了在两个通道上同时测量而设计了T式样几何形状;
►短至皮秒上至数秒的寿命测量范围且用同一激发光源和数据采集技术;
►全自动化的仪器部件包括了:比色皿支架、偏振片、滤光轮、单色器和搅拌器等;
►由计算机控制可将恒温浴、滴定仪、停流仪器和高压泵集成;
►可升级使其包括稳态测试功能如激发光谱/发射光谱等
►用于快速且精确偏振测定的平行光束光路设计;
主要参数规格:
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激发光源可选 |
♦皮秒脉冲半导体激光器: (nm): 370, 405, 436, 473, 635, 690, 780, 830 ♦纳秒LED (nm): 280, 300, 335, 345, 460, 500, 520 ♦其他脉冲激光器:超连续谱光源、皮秒飞秒固体激光器等 |
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激发和收集光路几何结构 |
平行光束设计,用于精准偏振测量
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偏振片 |
UV级别格兰-汤普逊偏振器,L/A = 2.0 |
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探测器 |
♦PMT ♦混合型PMT, SAPD等
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波长范围 |
185 - 1,700nm (取决于探测器) |
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数字TCSPC模块
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♦最小时间窗口宽度 (ps): 1 ♦时间分辨率,RMS抖动 (ps): 34 ♦计数率:8.5 MHz |
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寿命测量范围 |
100皮秒至数秒用同一激发光源和数字TCSPC信号处理单元; |
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软件适用操作系统 |
Windows 10 |
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电源要求 |
110 - 240 V, 50/60 Hz, 400 VAC |
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尺寸 重量 |
540 mm (长) x 425 mm (宽) x 235 mm (高) 25 (kg)
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ChronosBH时间分辨荧光光谱仪同PC1荧光光谱仪一样,同下列ISS生产提供的样品仓完美,参见资料下载中的文件。
典型应用
材料的光致发光
免疫分析侧试
纳米粒子和上转换粒子测试
蛋白质折叠
DNA-蛋白质的相互作用
小分子合成催化
测量实例
丙二醇中的荧光素
丙二醇中的荧光素的频域各向异性衰减 (不同偏振相角和振幅比) ,在 470-nm (氙灯)下测试, 发射线收集使用的是 OG530 高通滤波器。 计算值r &thera; = 5.3 ns , R0 = 0.40 和 τ = 4 ns, T = 27-28°C.
BodipyFL(氟硼二吡咯)水溶液
BodipyFL(氟硼二吡咯)水溶液的频率响应 (相位和调制) ,在 471-nm激光二极管。发射线收集使用的是 520KV高通滤波器。 数据的最佳拟合呈现指数衰减方式,衰减时间5.87 ns (x2 = 0.97).
时域强度衰减Time-Domain Intensity Decay
在 405-nm 脉冲激光二极管测试纸张的时域强度衰减。数据的最佳拟合呈现指数衰减方式,衰减时间 0.94 ns (x2 = 1.25).
溶于乙二醇
时域各向异性衰减Time-Domain Anisotropy Decay
在447nm脉冲激光二极管下溶于乙二醇溶液的Coumarin 6 (香豆素)的时域各向异性衰减。发射线通过 KV 505高通滤波器收集。 计算值 θ = 2.6 ns , R0 = 0.38 和 τ = 2.3 ns, T = 20-21°C.
应用领域及发表应用期刊
生物化学&分子生物学(细胞膜,核酸,蛋白质)
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Hydroxymethylation of DNA Influences Nucleosomal Conformation and Stability in Vitro. |
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Solution Scattering and FRET Studies on Nucleosomes Reveal DNA Unwrapping Effects of H3 and H4 Tail Removal. |
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DNA Methylation Regulated Nucleosome Dynamics. |
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Clipping of Flexible Tails of Histones H3 and H4 Affects the Structure and Dynamics of the Nucleosome |
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The Effect of DNA CpG Methylation on the Dynamic Conformation of a Nucleosome |
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Conformational Dynamics of Titin PEVK Explored with FRET Spectroscopy |
光合作用
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Lessons From Chlorophylls: Modifications of Porphyrinoids Towards Optimized Solar Energy Conversion. |
物理化学
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Photophysical Characterization of [Ir(ppy)2(dmb)][PF6] Towards Application in Light-Emitting Electrochemical Cells (LECs) |
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Solid State Molecular Device Based on a Rhenium(I) Polypyridyl Complex Immobilized on TiO2 Films |
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A Pyrene Maleimide with a Flexible Linker for Sampling of Longer Inter-Thiol Distances by Excimer Formation |
诊断学
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A Dual-Modality Optical Biopsy Approach for In Vivo Detection of Prostate Cancer in Rat Model |
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Auto-fluorescence Lifetime and Light Reflectance Spectroscopy for Breast Cancer Diagnosis: Potential Tools for Intra-Operative Margin Detection |
化学&分子生物学(细胞膜,核酸,蛋白质)
|
|
Hydroxymethylation of DNA Influences Nucleosomal Conformation and Stability in Vitro. |
|
|
Solution Scattering and FRET Studies on Nucleosomes Reveal DNA Unwrapping Effects of H3 and H4 Tail Removal. |
|
|
DNA Methylation Regulated Nucleosome Dynamics. |
|
|
Clipping of Flexible Tails of Histones H3 and H4 Affects the Structure and Dynamics of the Nucleosome |
|
|
The Effect of DNA CpG Methylation on the Dynamic Conformation of a Nucleosome |
|
|
Conformational Dynamics of Titin PEVK Explored with FRET Spectroscopy |
光合作用
|
|
Lessons From Chlorophylls: Modifications of Porphyrinoids Towards Optimized Solar Energy Conversion. |
物理化学
|
|
Photophysical Characterization of [Ir(ppy)2(dmb)][PF6] Towards Application in Light-Emitting Electrochemical Cells (LECs) |
|
|
Solid State Molecular Device Based on a Rhenium(I) Polypyridyl Complex Immobilized on TiO2 Films |
|
|
A Pyrene Maleimide with a Flexible Linker for Sampling of Longer Inter-Thiol Distances by Excimer Formation |
诊断学
|
|
A Dual-Modality Optical Biopsy Approach for In Vivo Detection of Prostate Cancer in Rat Model |
|
|
Auto-fluorescence Lifetime and Light Reflectance Spectroscopy for Breast Cancer Diagnosis: Potential Tools for Intra-Operative Margin Detection |
