• Oxygen analyzer rapid OXY cube
    UNSTOPPABLE
    Long-life glassy carbon tube for
    pyrolysis temperatures up to 1500 °C
  • Oxygen analyzer rapid OXY cube
    EASY
    well proven purge and trap technology
    for best results
  • Oxygen analyzer rapid OXY cube
    EVERLASTING
    Matrix independent
    calibration and measurement
  • Oxygen analyzer rapid OXY cube
    CHAMPION
    precision <±0.1 absolute
  • Oxygen analyzer rapid OXY cube
    ALLROUNDER
    large measuring range
    from <0.01 up to 100%
  • Oxygen analyzer rapid OXY cube
    FLEXIBLE
    analysis of 1 mg
    up to 1 g sample weight

rapid OXY cube®

Get OXYted about oxygen analysis

The rapid OXY cube is a newly developed analyzer for highly precise and matrix-independent oxygen concentration measurement. Oxygen analysis using pyrolytic conversion poses high demands to instrument technology. To guarantee a highly precise and matrix-independent result, pyrolysis temperatures up to 1450 °C are necessary.

These extreme analysis conditions can only be fulfilled by rapid OXY cube, which achieves full conversion of sample oxygen to carbon monoxide. Even persistent organic as well as most inorganic substances are digested under these conditions and are detected matrix-independently. In addition, the novel backflush technology guarantees blank-free measurements also of the most difficult samples.

 

Highest temperature for highest precision

Our improvements in instrument technology lead to oxygen concentration analyses with unprecedented precision (standard deviation <0.1 % absolute) and convenience. The large dynamic measurement range allows sample weights of below 1 mg as well as up to 300 mg. The rapid OXY cube also stands for unmatched user-friendliness: It is optimized for unattended overnight operation and the pyrolysis reactor can be used for several thousands of samples.

rapid OXY cube with monitor
Ceramic tube
rapid OXY cube with open door
Flames
Sample feeder
Purge and trap column
pressed pills
Manual pressing tool for sample preparation