Microsense® Ultrasound Technology

Natural Processing – Higher Efficiency – Sustainable Farming

Microsense® Ultrasound Technology

Natural Processing – Higher Efficiency – Sustainable Farming

Conventional processing of leonardite, rock phosphate, potassium, and sulfur minerals relies on strong chemical reagents.

This not only alters the natural composition of these raw materials but also generates environmental burdens.

With Microsense® Ultrasound Technology, we use only the power of sound waves – no acids, bases, or solvents. This preserves the natural structure of nutrients and makes them more effective for soils and plants.

Benefits for Farmers and Nature

  •  Natural Integrity Preserved: Humic substances, phosphorus, potassium, and sulfur remain intact, micronized without chemical alteration.
  • High Efficiency: Micronized particles can be more readily available to plant roots and soil microbes.
  • Chemical-Free Production: No harmful residues or chemical waste streams.
  • Soil-Friendly: Does not add salt load or disturb pH balance; instead, supports soil biology.
  • Controlled Release: Nutrients are released gradually for longer-lasting effects.

Impact on Productivity


  • Micronization: Particle size reduction can increase solubility and bioavailability 2–5 times, enhancing nutrient efficiency.
  • Sustained Nutrient Supply: Provides season-long phosphorus feeding and extended nutrient availability.
  • Synergy in Action: Micronized Sulfur + Rock Phosphate: Microbes (Thiobacillus) oxidize sulfur, lowering pH and improving phosphorus solubility.
  • Leonardite + Minerals: Humic substances chelate nutrients, improving plant uptake.


Comparison: Chemical Extraction vs. Ultrasound Process

CriterionChemical ExtractionUltrasound Process
Waste GenerationHigh (acid, salt, solvent residues)None (water-based suspension)
Energy/CO₂ FootprintHigh (acid production & use)Moderate (electricity, can be renewable)
Soil ImpactSalt load, pH imbalanceEco-friendly, stimulates microbial activity
Product FormChemically modified solutionNatural micronized/colloidal state
Release ProfileFast, short-termControlled, longer-lasting
IntegrationWorks with chemical fertilizersWorks with microbes & natural soil cycles

CO₂ Reduction Claim


 CO₂ Reduction Claim: The ‘up to 40–70%’ reduction should be communicated as dependent on process conditions and renewable energy use; ideally supported by life cycle assessment (LCA).

Nutrient Solubility Increase


Nutrient Solubility: The ‘2–5 times’ increase is based on particle size and microbial synergy; best communicated as ‘can increase’ rather than absolute.

Microbial Interactions


Microbial Interactions: Synergy with Bacillus, Aspergillus, and Thiobacillus is scientifically valid but better emphasized in technical brochures than farmer-focused marketing.

Controlled Release Dynamics


Controlled Release Claim: Release dynamics depend on soil type and moisture; communicate as ‘slower and more gradual compared to chemical extracts’ rather than absolute.