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Il faut prendre des risques, il faut toujours prendre des risques. Mais l'attente comporte aussi un risque.
Desmarais, Paul
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Equipements
Optical circuits
Materials
Software

  • Sensors & Monitoring

    Capteur K-MZS

    Kloé developed a range of “all optical” integrated optical components dedicated to gas detection. These optical circuits are the result of Kloé know-how in optical design, of the versatility of its Dilase technology and its experience in Material Science.


    Currently, our circuits dedicated to the detection of chemical substances are divided into three ranges :

    • The K-MZS range, components compatible with the gas multidetection in an end-of-line configuration.
      icon K-MZS (748.3 kB)


    • The operation of the K-BGS sensor is based on the principle of Bragg gratings, photo-imprinted in a singlemode integrated optical waveguide. It can detect and quantify the presence of a specific gas. Its design facilitates an on-line deployment and allows real time monitoring of individual industrial facilities.


    • The K-FBG sensors, based on photoimprinted Bragg gratings in optical fibers, allow environmental control by quantifying any change in temperature or the presence of mechanical stress (strain, tension, torsion, pressure...)



    Kloé offers the Monitoring Interrogator Unit, a comprehensive monitoring system dedicated to photonics components, such as K-BGS and K-FBG, for control of specific industrial environments.



  • K-FBG: Temperature sensors


  • K-BGS : gaz sensors


  • K-STR : Strain sensors


  • K-MZS : Multi-sensors


  • Microfluidic circuits

    Capteur cellulaire K-MOC 100

    Today, medical and food industry analysis equipment integrates many optical functions, and in particular more and more optical fibres.

    In this context, the development of optical chips integrating self-adjusted optical and microfluidic functions represents an important evolution which can’t be bypassed. This type of “Lab on a Chip” integrated optical “micro set up” allows reliable optical measurements and limits benchmarking measurements while reducing manufacturing costs.

    The versatility of the Dilase technology patented by Kloé allowed us to design and industrialize chips integrating optical and microfluidic functions adjusted with a precision of a micrometer.

    icon K-MOC (779.53 kB)