Advanced materials · Functional particles · Contactless processing
Contactless fragmentation
for advanced materials.
Some applications don't just require separation. They require controlled interaction with matter at a fine scale. XCRUSHER explores pulsed-energy paths to produce, modify or prepare particles and advanced material systems — without direct mechanical contact.
Particle engineering
Less mechanical contact.
More controlled interaction.
Mechanical crushing can introduce contamination, uncontrolled defects and wide particle distributions.
Pulsed-energy processing creates a different interaction regime: short, intense, configurable, mediated by plasma and shockwaves.
This opens research and industrial paths for fragmentation, controlled weakening, activation and preparation of high-value material systems.
Application territories
From particles
to functional materials.
Flagship case · Nanodiamonds
Fluorescent nanodiamonds: a high-value demonstrator.
Fluorescent nanodiamonds illustrate the high-value potential of pulsed-energy particle engineering: a material whose value depends not only on size, but on structure, stability and optical function. XCRUSHER explores pulsed-energy fragmentation as a physical route for advanced particle engineering, including diamond and fluorescent nanodiamond systems — covered in a dedicated detailed page.
Positioning
Not a generic powder process.
A pulsed physical path.
The goal is not a universal path for every material system. It's to build application-specific protocols where pulsed energy delivers a differentiated advantage — and each system is qualified through testing, characterisation and process iteration.
Advanced materials & nanoparticles
Selective fragmentation. Material preserved.
Qualify your material system with us.
Bring your particles, powders or advanced systems — we build the protocol around them.