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Particle ID


Single Particle Explorer (SPE)

Single Particle Explorer (SPE)

The SPE product line offers foreign particle membrane analysis, filtration, automated image analysis and more.


Single Particle Explorer (SPE)

Single Particle Explorer (SPE)

Automated Raman Spectroscopy identifies organic particles while Laser Induced Breakdown Spectroscopy (LIBS) identifies all inorganic and metal particles.
Technology From: rap.ID

Single Particle Explorer (SPE)

The Single Particle Explorer (SPE) product line delivers reliable particle size, quantity, shape and chemical composition analysis of particles from 0.5 microns and ensures parenteral and implant technical cleanliness.

If offers foreign particle membrane analysis, filtration, automated image analysis and more. Fully automated Raman spectroscopy identifies organic particles and laser-induced breakdown spectroscopy (LIBS/metal.ID) analyses identifies inorganic substances as well as metal particles. Contamination can be efficiently tracked back to production processes using these combined technologies.

Products
  • SPE-i: Industrial
  • SPE-f: Forensic
  • SPE-ls: Life Sciences
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Layer Explorer UT (LE UT)

Layer Explorer UT (LE UT)

You can now measure down to a layer thickness of only 15nm using a combination of two spectroscopic methods.


Layer Explorer UT (LE UT)

Layer Explorer UT (LE UT)

All data such as position, layer thickness, audit trail information, and raw date are stored in a 21 CFR Part 11 compliant format.
Technology From: rap.ID

Layer Explorer UT (LE UT)

Layer Explorer Ultra-Thin (LE UT) determines the thickness and distribution of baked-on silicone layers in primary packing materials for parenterals such as syringes, cartridges, and vials. Now, you can measure down to a layer thickness of only 15nm using a combination of two spectroscopic methods. Ensuring the ability to control and specify the quality of the silicone layers is essential for proper functioning without destruction. All data, such as position, layer thickness, audit trail information, and raw date are stored in a 21 CFR

Code of Federal Regulations (US)
Part 11 compliant format.

Silicone oils are used as lubricants on the surfaces of prefilled glass syringes and other pharmaceutical glass containers. Use our non-destructive technology to measure the thickness and distribution of the silicone layer inside the glass or plastic primary packaging material.

A reliable, non-destructive method is used to determine the thickness distribution and chemistry of the silicone oil layer in syringes and other pharmaceutical glass or plastic containers. Information is quickly provided about any changes in the silicone oil layer.

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All products and information are subject to change without notice.