Conductive Glass Substrates

Conductive Glass Substrates

Conductive Glass Substrates are specially designed materials that combine the transparency of glass with excellent electrical conductivity, making them ideal for use in electronic and optoelectronic devices. 

Conductive Glass Substrates There are 6 products.

Showing 1 - 6 of 6 items
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    Quartz Glass Wafer offers high purity, excellent thermal stability, and outstanding electrical insulation, making it a key material in semiconductor manufacturing. With superior transparency in UV and IR spectra, it is widely used in lithography, etching masks, and optical components.

  • Inquiry

    Fused Quartz Wafer offers exceptional optical properties, high thermal stability, and broad transparency from UV to IR wavelengths, making it suitable for precision optics, semiconductor processing, and photonics applications. Heeger Materials is a professional supplier and manufacturer of high-quality Fused Quartz Wafers, offering customized solutions...

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    Piezoelectric Quartz (SiO2) Wafer is a single-crystal material grown under hydrothermal conditions, designed for frequency control and selection applications. It provides stable piezoelectric properties, making it essential for precision timing devices and resonators.

  • Inquiry

    Quartz (SiO2) Crystal Materials are high-purity, single-crystal quartz grown under controlled hydrothermal conditions. With exceptional piezoelectric properties, they are widely used in frequency control devices, optical applications, and advanced scientific research

  • Inquiry

    Quartz (SiO2) Single Crystal Wafer features high purity, precise orientation, and excellent piezoelectric properties for resonators, oscillators, and optical applications. Heeger Materials is a professional supplier and manufacturer of high-quality Quartz Single Crystal Wafers, offering customized solutions and competitive prices.

  • Inquiry

    orning 7980 Glass Substrate is a high-purity synthetic fused silica with excellent optical and thermal properties, featuring over 90% transmittance from 200 nm to 2500 nm. It offers low thermal expansion, strong durability, and is available in various grades for photonics and semiconductor applications. 

Showing 1 - 6 of 6 items