Custom optical flow chamber square capillary quartz tube
Custom optical flow chamber square capillary quartz tube is a specially designed square cross-section capillary tube, usually made of high-purity quartz material, suitable for use in the Optofluidics domain, especially when building optical flow chambers (Optical Flow Cells).
LUVERRE quartz
99.99%
Inner with Vacuum PVC bag and then wrapped with air bubble film, outer with wooden box.
as per customer's requirement
Availability: | |
---|---|
Custom optical flow chamber square capillary quartz tube is a specially designed square cross-section capillary tube, usually made of high-purity quartz material, suitable for use in the Optofluidics domain, especially when building optical flow chambers (Optical Flow Cells). The product can be customized to specific research needs and application scenarios to ensure optimal fluid handling and optical performance.
Product type: Customized optical flow chamber square capillary quartz tube
Cross-sectional shape: square cross-sectional, providing stable fluid channels and uniform optical paths
Main use: for optical flow chamber, microfluidic equipment, spectral analysis and other experimental and industrial applications
Features: high transparency, good optical properties, high temperature resistance, chemical corrosion resistance, customizable size and channel
Square section design: The cross section design of the square capillary quartz tube facilitates the implementation of more stable fluid flow and uniform optical transmission, which is essential for accurate optical inspection and analysis.
High transparency: The use of high-purity quartz material provides excellent transparency, ensuring that the transmission of optical signals is not disturbed.
Good optical performance: The design of the square capillary helps to reduce optical distortion and scattering, and improve the accuracy and sensitivity of optical detection.
High-temperature resistance: Quartz materials can remain stable in high-temperature environments, making them suitable for applications that require high-temperature treatment.
Chemical resistance: The square capillary quartz tube can resist the erosion of a variety of chemical reagents, making it suitable for the handling and analysis of corrosive fluids.
Precise size customization: The inner diameter, wall thickness, length and channel shape and size of the capillary can be customized according to customer needs.
Interface compatibility: Interface designs compatible with a variety of microfluidic devices are available for easy integration and use.
Application field: widely used in microfluidic laboratory, biological analysis, chemical synthesis, environmental monitoring, drug screening and other domains.
Custom optical flow chamber square capillary quartz tubes provide researchers and industry with an efficient tool for precise optical inspection and fluid manipulation in optical flow chambers. The design of its square section, combined with the high transparency and temperature and corrosion resistance of the quartz material, makes this product excellent in experiments that require high accuracy of optical measurement and fluid control. Through custom services, users can optimize the design of the optical flow chamber according to their specific needs, thus improving the efficiency of the experiment and the credibility of the results.
Custom optical flow chamber square capillary quartz tube is a specially designed square cross-section capillary tube, usually made of high-purity quartz material, suitable for use in the Optofluidics domain, especially when building optical flow chambers (Optical Flow Cells). The product can be customized to specific research needs and application scenarios to ensure optimal fluid handling and optical performance.
Product type: Customized optical flow chamber square capillary quartz tube
Cross-sectional shape: square cross-sectional, providing stable fluid channels and uniform optical paths
Main use: for optical flow chamber, microfluidic equipment, spectral analysis and other experimental and industrial applications
Features: high transparency, good optical properties, high temperature resistance, chemical corrosion resistance, customizable size and channel
Square section design: The cross section design of the square capillary quartz tube facilitates the implementation of more stable fluid flow and uniform optical transmission, which is essential for accurate optical inspection and analysis.
High transparency: The use of high-purity quartz material provides excellent transparency, ensuring that the transmission of optical signals is not disturbed.
Good optical performance: The design of the square capillary helps to reduce optical distortion and scattering, and improve the accuracy and sensitivity of optical detection.
High-temperature resistance: Quartz materials can remain stable in high-temperature environments, making them suitable for applications that require high-temperature treatment.
Chemical resistance: The square capillary quartz tube can resist the erosion of a variety of chemical reagents, making it suitable for the handling and analysis of corrosive fluids.
Precise size customization: The inner diameter, wall thickness, length and channel shape and size of the capillary can be customized according to customer needs.
Interface compatibility: Interface designs compatible with a variety of microfluidic devices are available for easy integration and use.
Application field: widely used in microfluidic laboratory, biological analysis, chemical synthesis, environmental monitoring, drug screening and other domains.
Custom optical flow chamber square capillary quartz tubes provide researchers and industry with an efficient tool for precise optical inspection and fluid manipulation in optical flow chambers. The design of its square section, combined with the high transparency and temperature and corrosion resistance of the quartz material, makes this product excellent in experiments that require high accuracy of optical measurement and fluid control. Through custom services, users can optimize the design of the optical flow chamber according to their specific needs, thus improving the efficiency of the experiment and the credibility of the results.