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.
REGIMEPulsed energy
RESULTControlled interaction
PARTICLE ENGINEERING
Less mechanical contact.
More controlled interaction.
Mechanical crushing can introduce contamination, uncontrolled defects, 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.
Nanoparticles
Pulsed-energy fragmentation and preparation for fine particles and nanostructured materials.
Fluorescent particles
Material systems where optical, functional or surface properties require controlled preparation protocols.
Nanodiamonds
Preparation, fragmentation or activation of diamond particles — including fluorescent nanodiamonds and NV-center applications.
Functional materials
Protocols for advanced particles, powders, composites and strategic systems requiring non-conventional processing.
SCOPEMaterial system
METHODTest · qualify · iterate
POSITIONING
Not a generic powder process.
A pulsed physical path.
The goal is not to claim a universal path for every material system.
It's to build application-specific protocols where pulsed energy delivers a differentiated advantage: reduced contact, controlled energy, selective weakening, functional preparation.
Each material system is qualified through testing, characterisation and process iteration.