Micromatter
MICROMATTER™ is an operating division of Advanced Applied Physics Solutions (AAPS) and specializes in thin film deposition technologies.
- +1 866-966-2286
+1 604-594-9720 - +1 604-594-9726
- info@micromatter.com
- Unit #1, 8333
130th Street,Surrey, BC
Surrey, BC V3W 7X4
Canada
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Products
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Custom Coatings
MICROMATTER provides custom coating services (single or multi-layer) on customer supplied glass, metal and semiconductor substrates.
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Graphene Foils
for thicknesses ≥5 µm. At this time, graphene foils are not part of our regular product portfolio yet. A small quantity of research samples is available upon special request.
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Metallurgical Applications (Thick Standards)
MICROMATTER is in the process of extending its manufacturing and quality assurance capabilities to include metal standards (≥1 µm for most elements and alloys). Research and development efforts are currently underway towards a large variety of new high quality products.
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Multi-Element Standards
These multi-element standards consist of multi-layer thin film coatings, one on top of the other, upto a maximum of 6 elemental coatings. It is generally recommended to have coating thicknesses < 20 µg/cm2, so as to cause negligible notable matrix effects, in particular absorption of X-rays emitted in lower deposits by those covering them.
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Consulting and Training Services
MICROMATTER’s scientific and engineering experts will be pleased to assist you with R&D projects or to provide specialized training pertinent to MICROMATTER products at our plant in Surrey, BC, Canada, or at your facility.
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Diamond-like Carbon (DLC) Foils
An intense laser beam is used to evaporate carbon from a graphitic sputter target. In the process, the graphite structure of the source material is converted into nano-particles, which deposit on prepared substrates as diamond-like carbon. The properties of these unique carbon foils make them useful in a variety of applications, in particular beam stripping, as backings for accelerator targets or x-ray attenuators.
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Pure Boron Foils
MICROMATTER™ boron foils are also produced by laser plasma ablation; however, the deposition process is much more complex and time consuming than that for diamond-like carbon. Accordingly, only thin films, mainly designed for beam stripping of heavy ions in electrostatic accelerators, are available. All films are generally delivered on glass substrates coated with a release agent.
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Coating thickness XRF Standards
We manufacture high accuracy reference standards capable of calibrating virtually any X-Ray Fluorescence (XRF) coating thickness and composition analysis system.
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Boron Enhanced Diamond-like Carbon Hybrid Foils
can be increased by sandwiching a thin layer of boron between two layers of diamond-like carbon. MICROMATTER DLC-B hybrid foils contain between 5% and 10% boron.DLC-B foils have remarkable flexibility, higher tensile strength and hardness. In most applications, their lifetime in particle beams is significantly greater than regular DLC foils. DLC-B foils are recommended for applications that require highest mechanical robustness and improved durability under beam conditions.
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Permacoat Beryllium-Based Windows
MICROMATTER Permacoat™ x-ray detector windows are beryllium based. The outer surface of the window has enhanced corrosion resistance due to a proprietary inert coating, which does not notably affect the transparency of the window.
