首页|用于微量生物样本检测的显微动态光散射系统研制

用于微量生物样本检测的显微动态光散射系统研制

扫码查看
原文链接
  • NETL
  • NSTL
  • 万方数据
针对微量生物样品的粒径检测需求,提出了一种显微动态光散射测量系统.传统的动态光散射技术在微量生物样品检测中通常需要毫升级别的样品,这种大量样品消耗不适用于微量生物样品的检测.为解决这一问题,设计了一套融合普通显微镜和动态光散射技术的显微动态光散射系统.通过整合这两种技术,文章成功将测量样品的用量降低到几十微升的水平,实现了两个数量级的提升,从而显著减少了样品的消耗,满足了实验室对微量生物样品检测的需求.为验证该系统的可行性,对不同材质和尺寸的纳米颗粒以及生物外泌体样本进行了评估.实验结果显示,针对60nm的聚苯乙烯微球颗粒和208.6nm的外泌体颗粒的测量尺寸误差分别为1.5%和-3.4%,与实际尺寸吻合良好,证明了该系统在实际应用中的可行性.
Development of a microscopic dynamic light scattering system for the detection of minute biological samples
A microscopic dynamic light scattering measurement system is proposed to meet the demands of detecting the particle size of minute biological samples.Traditional dynamic light scattering techniques typically require samples at the milliliter level,making them unsuitable for detecting minute biological samples.To address this issue,a microscopic dynamic light scattering system was designed that integrates conventional microscopy and dynamic light scattering tech-nologies.By combining these two techniques,the sample volume was successfully reduced to tens of microliters,achie-ving a two-order-of-magnitude improvement and significantly reducing sample consumption,thus meeting the laboratorys requirements for trace biological detection.To validate the feasibility of the system,different materials and sizes of nanop-articles as well as biological extracellular vesicle samples were evaluated.The experimental results showed that the measurement size errors for polystyrene microspheres particles at 60nm and exosomes particles at 208.6nm were 1.5%and-3.4%,respec-tively,which were in good agreement with the actual size,confirming the practicality of the system in practical applications.

dynamic light scatteringbiological samplenanoparticlesconfocal microscopysize determination

范彦平、李长乐、张鹏程、胡师、巫建东、杨慧

展开 >

上海理工大学光电信息与计算机工程学院,上海 200093

中国科学院深圳先进技术研究院生物医学与健康工程研究所,广东深圳 518055

动态光散射 生物样品检测 纳米颗粒 共聚焦显微 尺寸分析

国家自然科学基金国家自然科学基金深圳市科技创新委员会技术攻关重点项目深圳市科技创新委员会技术攻关重点项目

6207415562205366JSGG20210713091807026JCYJ20210324101405016

2024

光学技术
北京兵工学会 北京理工大学 中国北方光电工业总公司

光学技术

CSTPCD北大核心
影响因子:0.441
ISSN:1002-1582
年,卷(期):2024.50(4)
  • 1