提出一种利用回形针来制作三维微流控纸芯片的方法,能够适应多种不同的微流控纸芯片;利用自制的纸芯片比色检测装置,已用于牛血清白蛋白,Fe~(2+)的快速定量检测。牛血清白蛋白的线性范围是5~50μmol/L,检出限为0.13μmol/L,R~2=0.994。Fe~(2+)的线性范围是0.6~12μmol/L,检出限为0.15μmol/L,R~2=0.992。在所规定的范围内,都获得了较好的线性关系,验证了基于回形针的3D微流控纸芯片可用于实际样品检测的可能性
front page image (EN)A method is described for producing a microfluidic device (19), which comprises...
The development and growth of microfluidics has been mainly based on various novel fabrication techn...
本发明公开一种基于气动微泵和微混合器的微流控芯片,它采用三层结构,其底层为玻璃基底、在其基底上依次设置由弹性材料构成的气体驱动层和液体流动层;液体流动层包含一个微混合室和若干微储液池及流体通道,流体通...
DEM技术(Deepetching,Electroforming and Microreplication )是继硅微加工技术和LIGA技术发展起来的一种全新的非硅三维微加工技术.该技术吸收了体硅微加...
作为芯片实验室的典型代表性技术,微流控技术发展迅速,目前已经成为一门涵盖了从分离分析、分子生物学研究到生物医学诊断的交叉学科.本文主要归纳了微流控芯片技术的基本概念、发展概况、构建方法,以及在生物学应...
芯片实验室技术作为基因组学和蛋白质组学研究的一种新的技术平台,受到广泛重视.其中微流控芯片可用于基因组学和蛋白质组学的各个领域,包括基因表达分析、基因多态型分析和临床诊断等,可以完成样品的分离、反应和...
介绍了一种基于数控雕刻机的简捷微流控芯片制作方法。结合数控雕刻机加工模式中平行粗加工和等高线细加工的优点,设计并提出了一种不对称路径加工方法,有效避免了微结构在加工过程中出现断裂、扭曲及其附近大量残渣...
The connection of microfluidic devices to the outer world by tubes and wires is an underestimated is...
This work describes a method to fabricate three-dimensional paper microfluidic devices in one step, ...
The term “Lab-on-a-Chip,” is synonymous with describing microfluidic devices with biomedical applica...
A rapid, straightforward and print house-compatible mass fabrication method for integrating 3D paper...
FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPCONSELHO NACIONAL DE DESENVOLVIMENTO CI...
The purpose of this project is to produce a microfluidic device for mechanical cell lysis. Microflu...
Miniaturization and integration of assays, chemical synthesis, and cell culture models onto microflu...
Currently, there is an unmet need to manufacture nanomedicines in a continuous and controlled manner...
front page image (EN)A method is described for producing a microfluidic device (19), which comprises...
The development and growth of microfluidics has been mainly based on various novel fabrication techn...
本发明公开一种基于气动微泵和微混合器的微流控芯片,它采用三层结构,其底层为玻璃基底、在其基底上依次设置由弹性材料构成的气体驱动层和液体流动层;液体流动层包含一个微混合室和若干微储液池及流体通道,流体通...
DEM技术(Deepetching,Electroforming and Microreplication )是继硅微加工技术和LIGA技术发展起来的一种全新的非硅三维微加工技术.该技术吸收了体硅微加...
作为芯片实验室的典型代表性技术,微流控技术发展迅速,目前已经成为一门涵盖了从分离分析、分子生物学研究到生物医学诊断的交叉学科.本文主要归纳了微流控芯片技术的基本概念、发展概况、构建方法,以及在生物学应...
芯片实验室技术作为基因组学和蛋白质组学研究的一种新的技术平台,受到广泛重视.其中微流控芯片可用于基因组学和蛋白质组学的各个领域,包括基因表达分析、基因多态型分析和临床诊断等,可以完成样品的分离、反应和...
介绍了一种基于数控雕刻机的简捷微流控芯片制作方法。结合数控雕刻机加工模式中平行粗加工和等高线细加工的优点,设计并提出了一种不对称路径加工方法,有效避免了微结构在加工过程中出现断裂、扭曲及其附近大量残渣...
The connection of microfluidic devices to the outer world by tubes and wires is an underestimated is...
This work describes a method to fabricate three-dimensional paper microfluidic devices in one step, ...
The term “Lab-on-a-Chip,” is synonymous with describing microfluidic devices with biomedical applica...
A rapid, straightforward and print house-compatible mass fabrication method for integrating 3D paper...
FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPCONSELHO NACIONAL DE DESENVOLVIMENTO CI...
The purpose of this project is to produce a microfluidic device for mechanical cell lysis. Microflu...
Miniaturization and integration of assays, chemical synthesis, and cell culture models onto microflu...
Currently, there is an unmet need to manufacture nanomedicines in a continuous and controlled manner...
front page image (EN)A method is described for producing a microfluidic device (19), which comprises...
The development and growth of microfluidics has been mainly based on various novel fabrication techn...
本发明公开一种基于气动微泵和微混合器的微流控芯片,它采用三层结构,其底层为玻璃基底、在其基底上依次设置由弹性材料构成的气体驱动层和液体流动层;液体流动层包含一个微混合室和若干微储液池及流体通道,流体通...
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