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86-755-82924037Quartz capillaries are slender, tube-like structures made from high-purity quartz. They are renowned for their exceptional chemical stability, high temperature resistance, and excellent optical transparency across a wide range of wavelengths. These properties make quartz capillaries indispensable in scientific research and industrial applications, including microfluidics, fiber optics, and the precise handling or measurement of small volumes of liquids. Their ability to maintain integrity under extreme conditions also makes them ideal for experiments requiring precise control and observation.
Quartz capillaries are slender, cylindrical tubes manufactured from high-purity quartz, known for their exceptional properties such as high thermal stability, chemical inertness, and optical transparency across a wide spectrum, including ultraviolet (UV) to near-infrared (NIR) wavelengths. These capillaries are extensively used in scientific research and industrial applications, including X-ray crystallography for holding and manipulating small crystal samples, microfluidics for precise fluid handling, and in the construction of fiber optics for protective casings. Their ability to withstand high temperatures, aggressive chemicals, and maintain integrity under demanding conditions makes them invaluable in various fields.
Quartz capillaries are primarily utilized in scientific research and industrial applications due to their unique properties. In X-ray crystallography, they serve as containers for small crystal samples, allowing precise analysis without interference. Their role in microfluidics is critical for manipulating minute volumes of fluids with high precision, benefiting medical diagnostics and chemical analysis. Additionally, quartz capillaries are integral to fiber optics, providing protective casings for delicate optical fibers. Their high thermal stability, chemical resistance, and optical clarity also make them suitable for various applications in spectroscopy, where they can be used for sample containment and light guidance.