| Catalogue Code | IN-MnSr-01 IN-MnSr-02 |
| CAS No. | 12163-45-0 |
| Chemical Formula | SrMnO3 |
| Compound Name | Strontium Manganate |
| Purity (%) | >99.9 |
| Dimensions | Dia. 1”, Thick. 0.125” Dia. 2”, Thick. 0.25” |
Introduction
Strontium manganate (SrMnO₃) is a transition metal oxide that has a significant role in materials science, particularly for its unique electrical and magnetic properties. As a sputtering target, SrMnO₃ is utilized in the deposition of thin films for various applications, including in electronic devices, sensors, and magnetic materials. The compound’s perovskite structure and tunable properties make it suitable for integration into advanced technologies, especially those involving high-temperature superconductivity and ferromagnetism. Sputtering targets of SrMnO₃ are essential for producing high-quality, uniform films that exhibit the desired structural and functional characteristics.
Properties
The table below outlines the essential properties of Strontium Manganate (SrMnO₃):
| Property | Description |
| Molar mass | ~205.98 g/mol |
| Density | ~5.5–5.8 g/cm³ |
| Melting Point | ~1500–1550°C |
| Shape and Appearance | Solid, Thin film, Disc, or rectangular |
| Thermal Conductivity | ~2.5–3.0 W/(m·K) |
| Magnetic Properties | Antiferromagnetic |
Applications of Strontium Manganate (SrMnO₃)
- Energy Storage Systems: Due to their tunable conductivity and stability, these are used in electrodes for batteries and supercapacitors.
- Catalysis: Acts as a catalyst for oxygen evolution reactions (OER) in energy conversion systems.
- Perovskite-Based Materials: SrMnO₃ is a perovskite-type oxide, and its thin films are often used to develop perovskite materials for use in sensors, actuators, and catalytic systems due to their excellent electrical, magnetic, and structural properties.
- Spintronics: Its magnetic properties make it suitable for spintronic devices.
- Environmental Sensors: SrMnO₃ is employed in thin-film sensors for detecting gases and pollutants.
Answere: SrMnO₃ sputtering targets deposit thin films with specific electronic and magnetic properties for energy systems, sensors, and spintronics applications.
Answere: SrMnO₃ exhibits high activity in catalytic processes, particularly in oxygen evolution reactions, making it vital for renewable energy applications.
Answere: Yes, SrMnO₃ typically exhibits antiferromagnetic behavior, which can be tailored by modifying its composition or structure.
Answere: Yes, SrMnO₃ typically exhibits antiferromagnetic behavior, which can be tailored by modifying its composition or structure.
Answere: Yes, SrMnO₃ thin films can be engineered during the deposition process to achieve specific conductivity, magnetic properties, and thickness, depending on the application.
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