High Purity Germanium Disulfide GeS2 Granule Customized

Product Description

Chemical Name:  Germanium Disulfide

Chemical Formula: GeS2

CAS: 12025-34-2

Purity: 99.999% (Customized)

Specifications: granule size of 1-15 mm or -60 powder.

High Purity Germanium Disulfide (GeS2, CAS Number: 12025-34-2) is an important semiconductor material widely used in the optoelectronic and materials science fields. This material exhibits excellent optical and electrical properties, making it particularly suitable for nonlinear optical devices and infrared detectors.

Physical and Chemical Properties

- Density: The density of high purity GeS2 is approximately 4.4 g/cm³, and the specific value may vary based on purity and synthesis methods.

- Melting Point: The melting point of germanium disulfide is about 1,000 °C, providing good thermal stability.

- Hardness: This material exhibits moderate hardness, suitable for various application environments.

- Electrical Conductivity: High purity GeS2 has good electrical conductivity, suitable for electronic devices.

- Optical Properties: It has good transmittance in the visible and infrared ranges, making it widely applicable in optoelectronic fields.

Applications

High purity germanium disulfide is mainly applied in the optoelectronic and materials science fields, including:

1. Infrared Detectors: Used to manufacture highly sensitive infrared detectors suitable for various optoelectronic applications.

2. Nonlinear Optical Devices: Widely used in nonlinear optics to enhance the processing capability of optical signals.

3. Fiber Materials: Serves as an additive in fiber materials to improve performance.

4. Catalysis and Materials Research: In catalysis and materials research, germanium disulfide is used to develop new materials and technologies.

Summary

High purity germanium disulfide, with its superior physical and chemical properties, demonstrates broad application potential in the optoelectronic and materials science fields. As technology continues to advance, its range of applications is expected to further expand, supporting the development and manufacturing of high-performance materials.

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