Small diameter quartz capillary rod
Small-diameter quartz capillary rods are high-precision, miniature glass capillaries made primarily of high-purity quartz.
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
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Small-diameter quartz capillary rods are high-precision, miniature glass capillaries made primarily of high-purity quartz. These capillaries are designed and manufactured to meet the stringent requirements of a variety of industries and applications, especially where precise handling of fluids or measurement of microscale liquids and gases is required.
The main features of quartz capillaries include:
High-purity quartz material: These capillaries are made of high-quality, high-purity quartz, ensuring excellent thermal stability and chemical resistance.
Microscopic Dimensions: Capillary tubes can have an inner diameter as small as a few micrometers, making them ideal for applications that require tiny sample sizes.
Precision machining: Advanced manufacturing processes ensure the consistency of capillary size and the smoothness of the inner surface, which is essential for accurate fluid control and analysis.
Temperature resistance: Quartz capillaries can withstand extreme temperature changes and are suitable for a variety of environments.
Chemical inertness: Quartz capillaries exhibit excellent chemical inertness, ensuring sample and process integrity.
Multifunctional applications: suitable for a variety of scientific and industrial applications such as capillary electrophoresis, chromatography, flow cytometry, etc.
In terms of specific applications, quartz capillaries are widely used for:
Capillary electrophoresis: high-resolution separation in DNA analysis, protein characterization, and other fields.
Chromatography: Ensure accurate sample analysis and purification.
Flow cytometry: used for precise cell analysis and sorting in medical and biological research.
Microfluidics: Supports microscale fluid manipulation in lab-on-a-chip devices.
In addition, quartz capillaries have a wide range of applications in science and medicine, such as containers for holding liquids or gases, conduits for transferring fluids, or as components of specialized equipment. Due to their small size and precision, they are well-suited for applications that require precise control of fluid flow, such as microinjection techniques or the fabrication of microfluidic devices. The transparency and chemical inertness of quartz materials allow them to withstand high temperatures and corrosive environments, making them suitable for a wide range of experimental and analytical procedures.
Small-diameter quartz capillary rods are high-precision, miniature glass capillaries made primarily of high-purity quartz. These capillaries are designed and manufactured to meet the stringent requirements of a variety of industries and applications, especially where precise handling of fluids or measurement of microscale liquids and gases is required.
The main features of quartz capillaries include:
High-purity quartz material: These capillaries are made of high-quality, high-purity quartz, ensuring excellent thermal stability and chemical resistance.
Microscopic Dimensions: Capillary tubes can have an inner diameter as small as a few micrometers, making them ideal for applications that require tiny sample sizes.
Precision machining: Advanced manufacturing processes ensure the consistency of capillary size and the smoothness of the inner surface, which is essential for accurate fluid control and analysis.
Temperature resistance: Quartz capillaries can withstand extreme temperature changes and are suitable for a variety of environments.
Chemical inertness: Quartz capillaries exhibit excellent chemical inertness, ensuring sample and process integrity.
Multifunctional applications: suitable for a variety of scientific and industrial applications such as capillary electrophoresis, chromatography, flow cytometry, etc.
In terms of specific applications, quartz capillaries are widely used for:
Capillary electrophoresis: high-resolution separation in DNA analysis, protein characterization, and other fields.
Chromatography: Ensure accurate sample analysis and purification.
Flow cytometry: used for precise cell analysis and sorting in medical and biological research.
Microfluidics: Supports microscale fluid manipulation in lab-on-a-chip devices.
In addition, quartz capillaries have a wide range of applications in science and medicine, such as containers for holding liquids or gases, conduits for transferring fluids, or as components of specialized equipment. Due to their small size and precision, they are well-suited for applications that require precise control of fluid flow, such as microinjection techniques or the fabrication of microfluidic devices. The transparency and chemical inertness of quartz materials allow them to withstand high temperatures and corrosive environments, making them suitable for a wide range of experimental and analytical procedures.