LP980 Transient Absorption Spectrometer

Intensified Charge-Coupled Device (ICCD) Camera

The generation of spectra in kinetic mode by successive measurement at different wavelengths requires many excitation flashes. This can be problematic due to photo-degradation of the sample over time. This can be overcome by upgrading to spectral mode and fitting an ICCD onto the instrument.

The ICCD detector has a high dynamic range and an ultra-low readout noise and can be controlled by the L900 software.

Spectral Range: 180 nm – 850 nm (W-AGT photocathode)
Minimum Optical Gate Width: 7 ns

CCD Camera Specification
Full Number of Pixels: 1024 x 256
Number of Active Pixels: 960 x 255
Active Area: 25 mm x 6.7 mm
Cooling: -30°C (-40°C with additional coolant circulation)

Liquids

Cross-Beam Geometry: Standard sample holder of the LP980. Laser beam and probe beam intersect perpendicular at the sample position. The sample holder is designed to accept standard fluorescence cuvettes. Cuvettes can be positioned so that the probe beam passes through the centre of the cuvette or close to the surface of the incoming laser beam. The sample can be cooled by an external water circulator.

Solids and Powders (non-transparent)

Diffuse Reflectance: A sample holder for solid, non-transparent samples to be measured in Laser Flash Photolysis. This option requires samples to show significant diffuse scattering.

Gases and Low Density Liquids

Quasi Co-Linear Optics: A sample holder for low density liquid samples or gas samples to be measured in Laser Flash Photolysis. Laser beam and probe beam intersect in the sample in an angle of 3 degrees.

Stop-Flow Accessory

Rapid kinetic accessory for manual multi-mixing of samples capabilities. Comprises sample handling unit fitted with three 1 mL drive syringes, 600 mm long umbilical, manually operated drive, square mixing/observation cuvette with standard dimensions (10 mm path way). The stop-flow accessory can be computer-controlled as an option.

Note: This accessory can be used only with the halogen lamp as this is designed for ultimate long-term stability compared to arc-lamps.

Bath/Refrigerator (-10°C – +100°C): Closed cycle water/coolant bath to be used with water-cooled sample holders. The temperature range is -10°C to +100°C. The unit comprises digital display of set and measured temperature. The temperature range at the sample position can be reduced depending on the length and the insulation of the coolant pipes used.

Liquid Nitrogen Cryostats (77 K – 300 K, 77 K – 500 K): Liquid nitrogen cryostats with sample in exchange gas and quartz windows. The cryostats are controlled by the L900 software and include sample holders for cuvettes and solids. Mounting mechanics for the LP980 sample chamber are provided.

Liquid Helium Cryostats (3.4 K – 300 K, 3.4 K – 500 K): Open cycle liquid helium cryostats with quartz windows. The cryostats are controlled by the L900 software and include sample holders for cuvettes and solids. Mounting mechanics for the LP980 sample chamber are provided.

TE cooled sample holders (-35 °C – +105 °C, -35 °C – +150 °C, -50 °C – +150 °C) : Thermoelectrically cooled cuvette holders are offered with a selection of temperature ranges. They are directly compatible with the LP980 and controlled from the L900 software to acquire maps of temperature-dependent transient absorption and emission.

Extended Range PMTs

PMT980 Red-Sensitive Photomultiplier (200 nm – 980 nm): photomultiplier in standard LP980 housing. Detector response width of 5 ns, integrated with high voltage power supply.

PMT1010 Extended Red-Sensitive Photomultiplier (200 nm – 1010 nm): photomultiplier in standard LP980 housing. Detector response width of 7 ns, integrated with high voltage power supply.

InGaAs Detectors (NIR Range)

A range of InGaAs detectors are available that cover the range 900 nm – 2550 nm. For more details please contact us.

The standard L900 software package can be upgraded to include the FLASH software package. This is used for advanced transient absorption curve fitting and includes features such as lifetime distribution analysis and exponential components analysis. Please click on the link to learn more about FLASH software or contact us directly.