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We are pleased to collaborate with the University of Cyprus, providing them with a Lab Ultrasonic Nebulizer to support their ongoing scientific research. As a leading institution in materials science and nanotechnology, the University of Cyprus requires equipment that delivers precision, stability, and reproducibility. The ZYLAB Lab Ultrasonic Nebulizer is engineered to meet these demands, offering an advanced solution for aerosol-assisted chemical vapor deposition (AACVD), nanomaterials synthesis, and thin-film deposition.
Overview of the ZYLAB Lab Ultrasonic Nebulizer
The ZYLAB ultrasonic nebulizer is engineered for laboratory-scale aerosol generation, particularly for AACVD processes. Key features include:
- Model: UA-0.36L
- Maximum Liquid Capacity: 360 mL
- Liquid Injection Rate: Adjustable 0.04–13 mL/min with memory function
- Ultrasonic Power: Adjustable, up to 35 W
- Nebulized Droplet Size: 5–10 µm for uniform aerosol generation
- Carrier Gas Flow Rate: 60–600 mL/min adjustable
- Chemical Compatibility: PTFE liquid tank, resistant to acids, bases, and complex precursors
- Safety Features: Low-liquid auto shut-off to prevent dry operation
- Service: 12-month warranty and lifetime technical support
These specifications make it a versatile and precise tool for university research labs.
How the University of Cyprus Benefits from This Equipment
- Nanomaterials and Functional Thin-Film Research
- AACVD Capability: The ultrasonic nebulizer can atomize non-volatile precursor solutions into fine aerosols, ideal for depositing uniform thin films on substrates.
- Nanostructure Synthesis: Small droplet sizes (5–10 µm) promote uniform particle deposition, aiding in high-quality nanomaterial fabrication.
- Application Examples: Deposition of ZnO transparent conductive films for photovoltaics, optoelectronics, and sensors.
- Electrode Materials and Energy Research
- Battery and Supercapacitor Electrodes: The nebulizer enables uniform coating of electrode materials (metal oxides, composites) for improved performance.
- Fuel Cell Catalysts: Uniform deposition of precious metal catalysts (e.g., Pt, Pd) on supports is possible, supporting advanced energy research.
- Precision and Reproducibility
- Adjustable liquid injection (0.04–13 mL/min) and carrier gas flow (60–600 mL/min) ensure precise control over deposition.
- Safety features such as automatic low-level shut-off protect the experiment and equipment.
- Repeatable and stable aerosol generation improves experimental consistency, critical for academic research.
- Chemical Compatibility
- The PTFE liquid tank ensures resistance to acids, bases, and various chemical precursors, making it ideal for diverse research applications.
- Non-volatile precursors can be nebulized efficiently without significant loss.
- Material and Cost Efficiency
- Ultrasonic atomization minimizes precursor waste, reducing cost for expensive chemicals.
- Precise control over flow and carrier gas ensures consistent deposition and reduces trial-and-error adjustments.
Typical Applications Relevant to University Research
- Transparent Conductive Films: ZnO thin films for solar cells, optoelectronic devices, and sensors.
- Metal Oxide Nanoparticles: Synthesis of TiO₂, ZnO, or Fe₂O₃ nanoparticles for catalytic, sensor, or energy storage applications.
- Electrode Coatings: Uniform deposition of battery or fuel cell electrode materials.
- Composite Thin Films: Deposition of multilayer or mixed-metal films for advanced functional materials.
Read the related content: Advancing Key Material Research with Ultrasonic Atomization CVD
Why Choose ZYLAB Ultrasonic Nebulizer
- Specialized for Lab Research: Unlike generic ultrasonic devices, ZYLAB’s design is optimized for AACVD and precision materials research.
- Stable and Precise: Adjustable ultrasonic power, carrier gas flow, and liquid injection provide reproducible results.
- Safe and Reliable: Auto shut-off and chemical-resistant PTFE tanks protect both researchers and equipment.
- Comprehensive Support: 12-month warranty and lifetime technical support ensure long-term usability.
Conclusion
For research groups at the University of Cyprus, especially those in materials science, chemistry, and energy engineering, the ZYLAB Lab Ultrasonic Nebulizer provides a versatile, precise, and safe tool for advanced experimentation. From nanomaterial synthesis to functional thin-film deposition and electrode coating, this device enhances reproducibility, reduces precursor waste, and supports high-quality research outcomes.
Researchers seeking a reliable laboratory aerosol generator are encouraged to explore the ZYLAB Lab Ultrasonic Nebulizer for their next project. For inquiries or custom configurations, ZYLAB is ready to support your cutting-edge research.
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