人字形鱼骨微混合芯片(Staggered Herringbone Micromixer Chip,SHM)融合了微流体学与人字形鱼骨独特结构,展现出卓越的混合与分离性能。
其独特通道布局仿效人字形鱼骨的分叉结构,有效增加混合路径,提升混合效率。
紧凑的尺寸与可集成性使其适用于多种化学反应和生物分析应用。创新设计使用户能够在微尺度上实现高效混合,确保实验结果更为准确可靠。
人字形鱼骨微混合芯片的引入不仅为微流体领域带来新的可能性,同时为实验室研究和分析提供了强大的工具。
I. Principles of the Herringbone Chip
The principles of the herringbone chip are based on its unique structural design, aiming to optimize the mixing efficiency of microfluids. The herringbone structure consists of interlocking small fishbone shapes, and its design is guided by several key principles:
Interlocking Arrangement: The herringbone chip's internal fishbone structure adopts an interlocking arrangement, causing the fluid to flow in multiple directions within the microchannels. This interlocking arrangement effectively breaks the laminar flow effect in the channels, promoting more thorough mixing of different fluids.
Increased Contact Area: The herringbone structure increases the effective contact area between fluids, making it easier for different components to mix. By enlarging the contact area, the chip enhances mixing efficiency, particularly at the microscale.
Reduction of Fluid Laminar Effect: The herringbone structure helps reduce the laminar flow effect within microchannels. Laminar flow effects can lead to uneven fluid mixing, and the use of this structure helps eliminate such effects, improving mixing uniformity.
II. Structural Design of the Herringbone Micromixer Chip
The structural design of the herringbone micromixer chip is crucial for its efficient mixing. This design typically includes several key aspects:
Microchannel Network: The chip's interior contains a complex microchannel network used to guide and manipulate the flow of small liquid volumes. The design and layout of microchannels directly influence mixing efficiency, and the herringbone micromixer chip often employs specific geometric shapes, such as the herringbone structure, to optimize mixing performance.
Herringbone Structure: The internal herringbone structure is a prominent feature of the herringbone micromixer chip. The interlocking arrangement and microscale design of this structure allow fluids to mix more rapidly and uniformly.
Material Selection: The herringbone micromixer chip's manufacturing typically involves micro-nanofabrication techniques, demanding careful material selection. Common materials include glass, polymers, etc., meeting the fabrication requirements of microfluidic chips.
III. Performance Characteristics of the Herringbone Micromixer Chip
The herringbone micromixer chip possesses several notable characteristics due to its unique structural design:
Efficient Mixing: The herringbone structure effectively increases the contact area between fluids, significantly improving mixing efficiency. This is crucial for applications that require rapid and uniform mixing.
Microscale Operations: Utilizing micro-nanofabrication techniques, the herringbone micromixer chip can manipulate fluids at the microscale, making it suitable for microfluidic experiments and research.
Controllable Mixing Degree: The rational design of the structure allows the mixing degree to be adjusted through microscale control, meeting the requirements of different experiments or applications.
Suitable for Various Liquids: The herringbone micromixer chip's design is not only applicable to fluids of different natures but also effective in mixing various components of liquids.
IV. Applications of the Herringbone Micromixer Chip
The herringbone micromixer chip finds widespread applications in several fields:
Chemical Synthesis: In chemical reactions, where it is essential to mix different chemical substances uniformly, the herringbone micromixer chip's high-efficiency mixing performance makes it an ideal choice.
Biomedical Research: In biomedical research involving cell cultures, protein analysis, and other applications, precise mixing of small liquids is required. The chip's application in these fields enhances experimental efficiency and accuracy.
Laboratory Analysis: The herringbone micromixer chip is suitable for laboratory analysis, including sample pretreatment, reaction mixing, providing an efficient tool for laboratory research.
Drug Development: In drug development, precise mixing of different liquid components is crucial. The herringbone micromixer chip, with its efficient mixing characteristics, provides a reliable tool for achieving uniform mixing and reactions in drug development.
V. Customization by Top Micro Control
In the field of herringbone micromixer chip fabrication and customization,Dxfluidics has emerged as a prominent player. As a professional microfluidic chip manufacturer, Top Micro Control is dedicated to providing customized solutions for microfluidic chips, including the design, fabrication, and processing of herringbone micromixer chips.
顶旭微控凭借其丰富的经验和先进的微纳加工技术,能够满足客户在微流体领域中的个性化需求。
无论是在生物医学、化学合成、实验室分析还是药物研发领域,顶旭微控都可以提供高质量、高效率的微流体芯片,包括人字形鱼骨芯片,以满足客户的独特需求。
Product Code | Outline (mm) | Channel | Staggered herringbone | Chip material | price(CNY) | ||
Depth (um) | Width (um) | Depth (um) | Width (um) | ||||
M0004 | 10*16 | 79 | 200 | 21 | 40 | PDMS+Glass | 300 |
M0004-1 | 45*20 | 79 | 200 | 21 | 40 | PDMS+Glass | 400 |
M0005 | 30*10 | 79 | 300 | 21 | 40 | PDMS+Glass | 400 |
M0006 | 85*50 | 79 | 200 | 21 | 40 | PDMS+Glass | 600 |
M0007 | 45*20 | 79 | 200 | 21 | 40 | PDMS+Glass | 400 |
M0008 | 45*20 | 79 | 200 | 21 | 40 | PDMS+Glass | 400 |
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.
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