Dispersive Raman Spectrometer
Instrument: Renishaw inVIA Dispersive Raman Spectrometer
Lasers:
• 532 nm 100 mW-Nd.YAG Laser
• 633 nm 17 mW-He-Ne Laser
• 785 nm 300 mW-Variable Diode Laser
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Dispersive Raman System |
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Test Methods |
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Single Point Analysis |
Lenses
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Mapping |
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Depth Profiling and Slicing |
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Polarization |
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Sample Properties: Samples to be sent for analysis may be in powder, solid block, film, coating or liquid form. In powder samples, it should be between 25-50 mg (but these amounts may vary depending on the type of study). For liquid samples, it should be between 10-20 ml.
Applications:
• Academic and agricultural research
• Food and beverage industry
• Microbiology, drug development and bacteriology
• Micro analysis
• Paper industry
• Construction Materials
• Polymers
• Analytical processing technologies
• Process control
• Recycling industry
• Surface characterization
• Carbon-nanotubes
Instrument: Renishaw inVIA Dispersive Raman Spectrometer
Lasers:
• 532 nm 100 mW-Nd.YAG Laser
• 633 nm 17 mW-He-Ne Laser
• 785 nm 300 mW-Variable Diode Laser
|
Dispersive Raman System |
|
|
Test Methods |
|
|
Single Point Analysis |
Lenses
|
|
Mapping |
|
|
Depth Profiling and Slicing |
|
|
Polarization |
|
Sample Properties: Samples to be sent for analysis may be in powder, solid block, film, coating or liquid form. In powder samples, it should be between 25-50 mg (but these amounts may vary depending on the type of study). For liquid samples, it should be between 10-20 ml.
Applications:
• Academic and agricultural research
• Food and beverage industry
• Microbiology, drug development and bacteriology
• Micro analysis
• Paper industry
• Construction Materials
• Polymers
• Analytical processing technologies
• Process control
• Recycling industry
• Surface characterization
• Carbon-nanotubes