Precise temperature control keeps the temperature of the column constant at one value, making the results independent of room temperature and thus reproducible and comparable.
A higher column temperature means that the flow is increased while the pressure remains the same, or longer columns can be used while the pressure and throughput remain the same.
The temperature can be set on the analytical computer via the supplied software. For automated applications, the column temperature can be controlled via a control input or via a program interface.
Developed at the Max Planck Institute of Biochemistry Martinsried, the Sonation column oven is used for temperature control of the separation column in ESI nanospray applications.
Precise temperature control keeps the temperature of the column constant at one value, making the results independent of room temperature and thus reproducible and comparable.
Higher column temperature allows significantly higher flows at a constant pressure. This leads to the fact that the sample and wash cycles can be accelerated considerably and thus the utilization of the instrument is improved.
Developed at the Max Planck Institute of Biochemistry Martinsried, the Sonation column oven is used for temperature control of the separation column in ESI nanospray applications.
Precise temperature control keeps the temperature of the column constant at one value, making the results independent of room temperature and thus reproducible and comparable.
Higher column temperature allows significantly higher flows at a constant pressure. This leads to the fact that the sample and wash cycles can be accelerated considerably and thus the utilization of the instrument is improved.
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