Introduction to Manganese Doped Zinc Oxide Nanoparticles
Zinc Oxide doped with Manganese represents a breakthrough in advanced materials technology, offering unique semiconductor properties that bridge traditional electronics with emerging spintronic applications. This innovative material combines the established optical and electrical characteristics of zinc oxide with the magnetic properties introduced by manganese dopants, creating opportunities for next-generation electronic devices.
Our high-purity Manganese-doped Zinc Oxide sputtering targets deliver superior performance with precise dopant control, making them ideal for thin film deposition in advanced electronics. Available in custom concentrations from 0.1% to 5% Mn, these materials enable breakthrough innovations in transparent conducting oxides, spintronics, and photovoltaic technologies.
Key Properties: Manganese-Doped Zinc Oxide Nanostructures
Mn-doped ZnO’s value stems from synergistic effects: ZnO’s transparency and piezoelectricity merge with Mn’s room-temperature ferromagnetism. Doping induces lattice strain (evident in XRD peak shifts), expanding applications in high-sensitivity systems
Table: Core Properties of Mn-Doped ZnO
| Property | Value | Impact on Performance |
|---|
| Crystal Structure | Hexagonal Wurtzite (P63mc) | Ensures compatibility with semiconductor processes |
| Bandgap | 3.37–3.87 eV (tunable with Mn%) | Broadens light absorption for UV/photocatalysis |
| Magnetic Behavior | Ferromagnetic (RT) | Enables spintronic memory/logic devices |
| Density | >5.6 g/cm³ | Enhances sputtering uniformity |
| Thermal Stability | Up to 1,975°C | Supports high-temp deposition processes |
| Emission Range (QDs) | 500–580 nm | Facilitates fluorescence sensing |
Types or Grades of Manganese Doped Zinc Oxide
Manganese-doped zinc Oxide can be tailored by dopant concentration, form, and purity to meet application-specific demands. Infinita Materials supplies standard and custom solutions, including sputtering targets, powders, and nanostructures, becoming a one-stop point as a Zinc Oxide Supplier and Manganese Oxide Manufacturer.
| Grade | Mn Content | Purity | Forms Available |
|---|
| Standard | 0.3 wt% | 99.9% | Disc, Planar, Powder |
| High-Purity | 1–4 wt% | 99.99% | Disc, Custom Shapes |
| Nanoparticle Grade | 0.3–2 wt% | 99.9% | Powder, Suspension |
| Custom | 0.1–4 wt% | 99.9%+ | Tailored on request |
Applications of Manganese-doped Zinc Oxide (Mn-doped ZnO)
Manganese-Doped Zinc Oxide finds broad practical use in advanced technology fields. Its unique blend of magnetic, electronic, and optical properties makes it an essential material for smart sensing, high-efficiency catalysis, and next-generation device fabrication. By leveraging nanostructures or thin films, end users unlock performance in research and industry.
| Industry | Application | Key Benefit |
|---|
| | |
| Semiconductors | Spintronics, magnetic semiconductors | Enhanced magnetic/electronic |
| Photonics | UV/Visible LEDs, optoelectronic modulators | Tunable optical properties |
| Sensors | Gas sensors, biosensors, photodetectors | High sensitivity/selectivity |
| Environmental | Photocatalytic degradation, water treatment | Efficient pollutant removal |
| Energy | Solar cells, advanced battery electrodes | Improved efficiency/stability |
| Research | Magnetic & quantum devices, functional coatings | Customizable functionality |
With a proven track record in thin film fabrication, Manganese-doped Zinc Oxide (Mn-doped ZnO) nanoparticles and sputtering targets are integral to innovation in electronics, green tech, and industrial sensing.
Material Advantages
Compared to conventional alternatives, ZnO/Al₂O₃/Ga₂O₃ and its doped derivatives offer a powerful combination of high electrical conductivity and optical transparency, crucial for modern displays and advanced electronics.
The wide bandgap supports superior UV stability, while flexible doping enables tunable, application-specific properties. These materials provide lower production costs than indium tin oxide (ITO) and greater environmental and operational robustness, with fine control of nanostructure and surface area. Gallium doping enhances thermal and electrical properties for demanding, high-temperature, and high-efficiency use cases.
Differentiated Value for Expert Buyers
Engineers, researchers, and procurement specialists choose Infinita Materials for:
- Material Customization: Doping level, particle size, morphology, and packaging options tailored to project needs.
- Rapid, Reliable Logistics: Expedited deliveries and global reach for urgent and large-scale requirements.
End-to-End Solutions: Support, specification matching, and after-sales engagement ensure complete satisfaction.
Why Partner with Infinita Materials
As a leading Zinc Oxide, Alumina, and Gallium supplier, Infinita Materials delivers more than just products — we guarantee consistency, technical expertise, and global logistics.
Our manufacturing and strategic sourcing provide flexibility to meet unique project requirements, while our technical support team assists with selection, scaling, and specialty sourcing for advanced R&D and manufacturing. We maintain high stock levels and offer rapid, secure global shipments tailored to your schedule.
Take the Next Step
Whether you’re developing groundbreaking displays, enhancing energy systems, or scaling up R&D, Infinita Materials delivers the Zinc Oxide Alumina and Gallium grades and expertise to keep you ahead of the technology curve. Contact us to discuss your technical requirements, receive a quote, or request a custom formulation.
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