The TDSLab Series represents the cutting edge of thermal desorption technology, offering customized solutions for various applications. It provides precision, reliability, and versatility for both research and industry.
Overview
Discover the upcoming generation of thermal desorption systems created to provide unmatched accuracy and adaptability in various contexts.
Applications
- Hydrogen in Metals Analysis
- Thin Film Research
- Nuclear Fusion Applications
- Photovoltaic Studies
- Semiconductor Research
TDSLab-6
Precision Engineered for Hydrogen Embrittlement Studies and More
- Precision Measurement: Identifies hydrogen levels in steel as low as 0.01 parts per million
- Versatile Sample Handling: Fits a range of sample sizes and types
- Advanced Thermal Programming: Temperature control up to 1000 °C
- Integrated Mass Spectrometer: Detailed gas analysis is provided by the integrated mass spectrometer
- Automated Gas Handling: Guarantees a regulated atmosphere for reliable outcomes
- Easy-to-use Software and Interface: Offers sophisticated data handling and simple controls
Applications
Perfect for studies examining hydrogen embrittlement, corrosion mechanisms, coatings assessment, and barrier characteristics in industrial materials.
TDSLab-9
Engineered for High-Mass Applications in Photovoltaic and Semiconductor Research
- High-Mass Capability: Designed to ensure precise and accurate analysis by handling heavier isotopes and complex samples.
- Advanced Temperature Control: Provides accurate temperature settings up to 1000 °C, which is necessary to replicate the conditions in which photovoltaic materials operate.
- Integrated High-Performance Mass Spectrometry: Provides a thorough analysis of desorbed gases, essential for characterizing materials at the molecular level.
- Automated Gas Handling System: This system uses vacuum technology and an automated gas introduction system to provide repeatable and controlled results.
- TPDsoft Custom Software: Improved control over the heating and desorption processes is provided, and the user-friendly interfaces make complex data analysis easier.
Applications
The TDSLab-9 is essential for developing solar energy and electronic material technologies. It is perfect for photovoltaic research and thorough semiconductor analysis.
TDSLab-20
Designed for High-Performance Scientific Research, Including Nuclear Fusion
- Exceptional Mass Resolution: Unmatched accuracy in resolving complex isotopic species, essential for comprehending fusion processes.
- High Sensitivity and Selectivity: Finds trace amounts of isotopes, essential for extreme-condition materials analysis.
- Robust and Reliable: Produces reliable, repeatable results crucial for high-precision research.
- Advanced Operational Features: Enables high-intensity signals and multiple gas streams to be managed without sacrificing data quality.
Applications
TDSLab-20 is ideal for any field requiring in-depth mass analysis, including materials science, nuclear fusion research, and environmental monitoring. It supplies vital information to push the frontiers of scientific research.
Features
- 1000 °C Sample Stage with PID Control Module: Ensures accurate control of temperature
- Multiport UHV Chamber: Enables intricate experimental configurations
- High Precision Triple Filter Quadrupole Mass Spectrometer with Digital Pulse Ion Counting Detector: Provides a thorough gas analysis
- Water Cooled Heater Shroud: Reduces outgassing and accelerates cooling
- Z-drive for Optimal Sample/Detector Positioning: Increases the precision of measurements
- Bakeout Jacket (150 °C Max): Minimizes system pauses in between tests
- Linear Sample Transfer Mechanism and Loadlock: Viewports and a gate valve are included for increased operational flexibility
- Mass Filter Shroud: Decreases background interference and raises sensitivity
- TPDsoft Control and Analysis Software: Makes data analysis and experiment management easier