SOLARLAB XM
Solartron analytical
Advanced Photo-electrochemical Measurement System
The SOLARLAB XM by Solartron Analytical is an advanced and versatile tool tailored for the detailed study and characterization of solar cells and photo-electrochemical processes, providing researchers with the precision and flexibility they need to push the boundaries of renewable energy technology.
Advantages
- Comprehensive Photo-electrochemical Analysis: Specifically designed for characterizing solar cells and studying photo-synthesis.
- High Precision: Offers accurate measurements for research in renewable energy technologies.
- Modular Design: Easily integrates with other Solartron Analytical systems.
- User-friendly Software: Includes intuitive software for data acquisition and analysis.
- Versatile Applications: Suitable for various photo-electrochemical research needs, including advanced material studies and energy storage.
The SOLARLAB XM is Solartron Analytical’s premier system for comprehensive photo-electrochemical analysis. Designed with the specific needs of solar energy research in mind, this system allows for precise characterization of solar cells and photo-synthesis processes. Its modular architecture enables seamless integration with other measurement systems, ensuring that researchers can customize the tool to fit their specific requirements. The included software package is user-friendly, yet powerful, offering advanced data processing capabilities for detailed analysis. This system is a vital asset for any laboratory focused on the development of next-generation solar energy technologies.
| Specification | Details |
|---|---|
| Measurement Range | 0.1 µA to 1 A (dependent on configuration) |
| Voltage Range | ±10 V with high resolution |
| Accuracy | ±0.1% of reading |
| Impedance Measurement | 10 µHz to 1 MHz frequency range |
| Software | Includes advanced photo-electrochemical analysis tools |
| Connectivity | USB, Ethernet, GPIB |
| Power Supply | 100-240 V, 50/60 Hz |
| Operating Temperature | 15°C to 35°C |
- Solar Cell Characterization: Ideal for studying the efficiency and performance of various solar cell technologies.
- Photo-electrochemical Research: Supports advanced research in photo-synthesis and other light-induced electrochemical processes.
- Materials Science: Useful in analyzing the properties and behaviors of materials under photo-electrochemical conditions.
- Energy Storage: Can be utilized in research focusing on the integration of solar energy with storage technologies.
