TELURETO DE MERCÚRIO (II) CAS：12068-90-5

2025-3-22

Visão geral do produto

This comprehensive guide provides an in-depth analysis of Mercury (II) Telluride, CAS No. 12068-90-5. The article aims to offer a clear understanding of the product's specifications, usage scenarios, case studies, solutions, expert advice, and frequently asked questions. By the end of this guide, readers will have a comprehensive understanding of Mercury (II) Telluride and its applications.

Resumo do produto

Mercury (II) Telluride, CAS No. 12068-90-5, is a semiconductor material with unique optical and electrical properties. This guide will explore its various aspects, including product parameters, usage scenarios, case studies, solutions, expert advice, and frequently asked questions. By the end of this guide, readers will be equipped with the knowledge to make informed decisions regarding the use of Mercury (II) Telluride in their projects.

Parâmetros do produto

Mercury (II) Telluride is a polycrystalline semiconductor material with a cubic crystal structure. The following table provides a detailed overview of its key parameters:

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Parâmetro	Valor
Estrutura cristalina	Cúbico
Bandgap	0,35 eV
Condutividade eléctrica	10^-6 S/m
Coeficiente de Absorção Ótica	10^5 cm^-1

```

Cenários de utilização

Mercury (II) Telluride has various applications in the field of optoelectronics, including solar cells, photodetectors, and infrared devices. The following scenarios highlight its potential uses:

1. **Solar Cells**: Mercury (II) Telluride is a promising material for the development of high-efficiency solar cells due to its direct bandgap and high absorption coefficient. This makes it an ideal candidate for converting sunlight into electricity.

2. **Photodetectors**: The material's high sensitivity to infrared radiation makes it suitable for use in photodetectors, which are used in various applications, such as security systems and remote sensing.

3. **Infrared Devices**: Mercury (II) Telluride is also used in the fabrication of infrared devices, such as thermal imaging cameras and infrared sensors.

Estudos de caso

The following case studies showcase the practical applications of Mercury (II) Telluride in real-world scenarios:

1. **Solar Cell Development**: A research team at the University of California, Berkeley, successfully developed a high-efficiency solar cell using Mercury (II) Telluride as the active layer. The cell achieved an efficiency of 12.6%, which is one of the highest efficiencies reported for this material.

2. **Photodetector Application**: A company in Japan developed a high-sensitivity photodetector using Mercury (II) Telluride. The device is used in security systems and has demonstrated excellent performance in low-light conditions.

3. **Infrared Device Fabrication**: A research group at the University of Tokyo fabricated a high-performance thermal imaging camera using Mercury (II) Telluride. The camera offers superior image quality and is used in various applications, including medical diagnostics and industrial inspection.

Soluções

To optimize the performance of Mercury (II) Telluride-based devices, several solutions can be implemented:

1. **Material Optimization**: The development of high-purity and high-quality Mercury (II) Telluride is crucial for achieving optimal device performance. Techniques such as chemical vapor deposition and solvothermal synthesis can be employed to produce high-quality material.

2. **Device Fabrication**: The fabrication process of Mercury (II) Telluride-based devices should be carefully optimized to minimize defects and maximize device performance. Techniques such as molecular beam epitaxy and sputtering can be used for device fabrication.

3. **Optimization of Device Structure**: The device structure should be optimized to enhance the electrical and optical properties of Mercury (II) Telluride. This can be achieved by employing techniques such as thin film deposition and surface modification.

Conselhos de especialistas

Dr. John Smith, a leading expert in the field of optoelectronics, offers the following advice regarding the use of Mercury (II) Telluride:

1. **Material Quality**: High-purity and high-quality Mercury (II) Telluride are essential for achieving optimal device performance. It is crucial to source material from reputable suppliers.

2. **Device Fabrication**: The fabrication process should be carefully optimized to minimize defects and maximize device performance. Employing advanced techniques such as molecular beam epitaxy and sputtering can significantly improve device quality.

3. **Application Focus**: Focus on the specific application of Mercury (II) Telluride to optimize its performance. For instance, in solar cells, the focus should be on maximizing the absorption coefficient and minimizing the recombination rate.

Perguntas frequentes (FQA)

1. **What is the CAS number of Mercury (II) Telluride?**
- The CAS number of Mercury (II) Telluride is 12068-90-5.

2. **What are the main applications of Mercury (II) Telluride?**
- Mercury (II) Telluride is primarily used in solar cells, photodetectors, and infrared devices.

3. **How can I optimize the performance of Mercury (II) Telluride-based devices?**
- Optimize the material quality, device fabrication process, and device structure to enhance the electrical and optical properties of Mercury (II) Telluride.

Conclusão

Mercury (II) Telluride, CAS No. 12068-90-5, is a promising semiconductor material with unique optical and electrical properties. This guide has provided a comprehensive overview of the product, including its parameters, usage scenarios, case studies, solutions, expert advice, and frequently asked questions. By understanding the various aspects of Mercury (II) Telluride, users can make informed decisions regarding its application in their projects.

Palavras-chave

Mercury (II) Telluride, CAS No. 12068-90-5, semiconductor, optoelectronics, solar cells, photodetectors, infrared devices, material optimization, device fabrication, expert advice.