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PRODUCT PARAMETERS
Description
Magnesium Silicide Properties | |
Other Names | dimagnesium silicide, dimagnesium monisilicide, MgSi, Mg2Si powder |
CAS No. | 22831-39-6 |
Compound Formula | Mg2Si |
Molecular Weight | 76.7 |
Appearance | Gray Black Powder |
Melting Point | N/A |
Boiling Point | N/A |
Density | 1.94 g/cm3 |
Solubility in H2O | N/A |
Exact Mass | 75.94701 |
Magnesium Silicide Health & Safety Information | |
Signal Word | Danger |
Hazard Statements | H261 |
Hazard Codes | F |
Risk Codes | 14/15 |
Safety Statements | N/A |
Transport Information | UN 2624 4.3/PG 2 |
(Magnesium Silicide Mg2Si Powder CAS 22831-39-6)
Overview of Magnesium Silicide Mg2Si Powder
Mg2Si powder, also known as magnesium silicide powder, is a compound synthesized by chemical reaction of magnesium and silicon elements. It belongs to a type of intermetallic compound that combines the characteristics of metals and semiconductors, and therefore has broad application prospects in materials science and electronics. The molecular structure of Mg2Si powder is stable, and its atoms are bonded by covalent and metallic bonds, endowing it with excellent mechanical and electrical properties. This powder has high melting point, high hardness, good conductivity and thermal stability, and can maintain its performance stability in high temperatures and even extreme environments. In addition, the band structure of Mg2Si powder can be controlled by adjusting its composition, thereby optimizing its electronic performance and providing more flexibility for the design of electronic devices. Due to its unique physical and chemical properties, Mg2Si powder has broad application prospects in fields such as solar cells, optoelectronic devices, high-temperature electronic devices, and energy storage materials.
Features of Magnesium Silicide Mg2Si Powder
Semiconducting Properties: Mg2Si powder exhibits semiconducting behavior, making it suitable for use in electronic devices such as solar cells and transistors.
High Thermal Stability: The material can withstand high temperatures without significant degradation, suitable for applications in harsh environments.
Resistance to Chemical Corrosion: Mg2Si powder is resistant to chemical corrosion, ensuring durability and stability in various environments.
Tunable Bandgap: Mg2Si's bandgap can be tuned through composition modification, allowing for optimization of its electronic properties for specific applications.
Good Electron Mobility: The material exhibits good electron mobility, facilitating efficient charge transport in electronic devices.
Compatibility with Lithium-Ion Batteries: Mg2Si can be used as an anode material in lithium-ion batteries due to its high theoretical capacity and electrochemical properties.
Application of Magnesium Silicide Mg2Si Powder
Solar Cells: Mg2Si powder's semiconducting properties and stability make it a suitable material for solar cells, converting sunlight into electricity efficiently.
Photodetectors: Its tunable bandgap and good electron mobility make Mg2Si powder a desirable material for photodetectors, sensitive to light and able to convert photons into electrical signals.
Transistors: Mg2Si powder can be used in transistors, serving as the semiconducting channel that controls the flow of electricity in electronic circuits.
Electronic Devices: Its semiconducting properties and thermal stability make Mg2Si powder suitable for use in various electronic devices, such as sensors and integrated circuits.
Lithium-Ion Batteries: Mg2Si powder can be used as an anode material in lithium-ion batteries, offering higher energy density and improved battery performance.
Application of Magnesium Silicide Mg2Si Powder
High-Temperature Applications: Due to its high thermal stability, Mg2Si powder is suitable for use in high-temperature applications, such as thermal barrier coatings and high-temperature electronics.
Application of Magnesium Silicide Mg2Si Powder
Company Profile
NANOTRUN(www.rboschco.com) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.
The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.
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FAQ
Q1
What are the main characteristics of Mg2Si powder that make it suitable for use in semiconductors?
Answer: Mg2Si powder is suitable for semiconductors due to its semiconducting properties, high thermal stability, and resistance to chemical corrosion. Its tunable bandgap and good electron mobility make it a desirable material for applications such as solar cells, photodetectors, and transistors.
Q2
How is Mg2Si powder typically synthesized?
Answer: Mg2Si powder is typically synthesized through solid-state reaction methods, such as ball milling or hot pressing, involving the reaction of magnesium and silicon at high temperatures. This process allows for the formation of a stoichiometric Mg2Si phase with the desired properties.
Q3
In what types of applications is Mg2Si powder commonly used?
Answer: Mg2Si powder is commonly used in applications where high thermal stability and semiconducting properties are required. These include solar cells, photodetectors, transistors, and other electronic devices. Additionally, it can also be used as an anode material in lithium-ion batteries due to its high theoretical capacity.
Q4
How does Mg2Si powder compare to other semiconductor materials in terms of performance?
Answer: Mg2Si powder compares favorably to other semiconductor materials in terms of performance. Its tunable bandgap and good electron mobility make it competitive with materials like silicon and gallium arsenide. Additionally, Mg2Si's resistance to high temperatures and chemical corrosion offers advantages in harsh environments.
Q5
What factors influence the selection of Mg2Si powder for a particular application?
Answer: The selection of Mg2Si powder for a particular application is influenced by several factors. These include the desired electronic properties, such as conductivity and bandgap, as well as the material's thermal stability and chemical resistance. Additionally, cost considerations, processing requirements, and the availability of Mg2Si powder can also play a role in the selection process.