提供了一种光学控制的微流体芯片,用以控制向神经元位点的流体输送。
An optically controlled microfluidic chip is provided for administering a fluid to a neuronal site.
基于MEMS技术的微流体芯片在分析化学和生物医学领域显示了巨大的应用潜力。
Microfluidic chips based on MEMS technology exhibit great potentials in analytical chemistry and biomedical fields.
提出一种集成了检测电极的基于线性阵列电极的微流体芯片,及以此芯片为基础所构建的控制检测系统。
The paper put forward a micro fluidic chip based on arrayed -electrode integrated with detection electrode , and its control and detection system .
直接借助ShrinkyDink塑料卡片给她的灵感,米歇尔·凯尼开发出一种制作微流体芯片的技术。
Khine developed a technique to make microfluidics chips directly from Shrinky Dink plastic.
凯尼没有去做模具,而是开发出一种技术,直接利用Shrinky Dinks塑料卡片制作出微流体芯片。
Instead of just making molds, Khine ultimately developed a technique to make microfluidics chips directly from Shrinky Dink plastic.
多年以后,因为工作需要,她又重操‘旧业’,玩起儿时最喜爱的玩具。在加入到一所全新大学时,她急需制造微流体芯片所用的设备。
Years later she returned to her favorite toy out of necessity when, after joining a brand-new university, she lacked much-needed facilities for making microfluidics chips.
为了达到这个目的,他们求助于一种称为微流体的技术。 这种技术以前用于制造计算机芯片,目的是制造能用精确方式混合少量液体的设备。
To do so, the pair turned to a technology called microfluidics, which borrows from the techniques used to make computer chips to produce devices that mix small amounts of liquid in precise ways.
发表在2007年1月份的芯片实验室杂志上的一篇论文中,卡姆和他的同事首次介绍了该微流体装置。
Kamm and his colleagues first described their microfluidic device in a January 2007 paper in Lab on a Chip.
得到的结果对于将所述复合材料在未来的微制造中使用,尤其是用于生物芯片和微流体器件,是非常有前途的。
Results obtained are very promising for the utilization of such composites in future micro-fabrications, especially for the bio-chips and microfluidic devices.
结合芯片技术和微流体,杨昌晖已经建立了一个便宜的微型显微镜。
By combining chip technology and microfluidics, Yang has created an inexpensive miniature microscope.
微流体混合是微流控芯片急需完善的重要操作单元,提出了在声表面波驱动下实现微通道内数字微流体快速混合方法。
As mixture for droplets is important and needs to be improved in lab-on-a-chip, a fast mixing method for digital droplets in micro-channel driven by surface acoustic wave is proposed.
微流体混合是微流控芯片急需完善的重要操作单元,提出了在声表面波驱动下实现微通道内数字微流体快速混合方法。
As mixture for droplets is important and needs to be improved in lab-on-a-chip, a fast mixing method for digital droplets in micro-channel driven by surface acoustic wave is proposed.
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