DingXu (Suzhou) Microfluidics Technology Co., Ltd. is a high-tech enterprise dedicated to the field of microfluidics. We are committed to providing customers with comprehensive microfluidic solutions, including customized microfluidic chip development, surface modification, microfluidic chip processing equipment, and microfluidic instruments. Our team boasts extensive experience and technical expertise, continuously combining professional knowledge with innovative thinking to deliver high-quality solutions. We consistently prioritize customer-centric values, embrace self-challenges, and pursue excellence. Through professionalism, innovation, and collaboration, we aim to create greater value for our customers and contribute to a brighter future in the field of microfluidics.
It consists of microfluidic channels, micromachined chips, and human nerve cells that can control fluid flow and mixing at the micrometer scale, mimicking the complex flow and mass transfer processes within the human brain.
Microfluidic Cardiac Organ Chip is an in vitro emulation of the human cardiovascular system, utilizing microfluidic chip technology, biomaterials, cell culture and imaging to construct a miniature cardiovascular system with physiological structure and function.
概述 “用于连续合成水凝胶微粒的微流控平台描述了嵌入在规定位置的超顺磁性胶体 (SPC)。 交联微粒的形状由停流光刻独立控制,而被捕获的 SPC 的位置由由 2D 镍片制成的虚拟磁性模具决定,有助于磁性捕获。 捕获的 SPC 的空间位置共同用作产品认证的二进制代码矩阵。通过系统研究镍贴片产生的磁场微梯度,将分析和有限元方法相结合,以优化 SPC 的捕获效率。 预计所提出的磁性微粒将有助于开发受软物质启发的产品质量控制、跟踪和防伪技术。” “水凝胶微粒合成方案: a) 将含有聚合物 (PEGDA)、光引发剂和超顺磁胶体 (SPC) 的溶液泵送通过微流体通道。放置在通道底部的 VMM 会按需磁化以…
The QR code is etched on the microfluidic chip or other chips, which is used to identify the chip information and facilitate the tracking of the whole process during the experiment.
It refers to the process of processing the tested wafers according to the product model and functional requirements to get an independent chip, and the processes involved include: slicing (scribing), patching, leading and bonding.
Photolithography is the use of exposure and development techniques to etch the device structure on the photoresist layer, and then the graphics on the mask are converted to the substrate through the etching process. The main photolithography are: electron beam lithography, step lithography, contact lithography and many other photolithography techniques.
Etching technology is not only a fundamental manufacturing process for semiconductor devices and integrated circuits, but is also applied to thin-film circuits, printed circuits and other microfabrication.
Coating is a technique in which a material (commonly known as a target or film) is deposited on the entire surface of a substrate under vacuum conditions using physical bombardment or chemical reaction.
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