Battery New Energy

Fuel Cells‌

Primarily used in automobiles, stationary power supplies, and portable consumer electronics, high-performance fuel cells can reduce reliance on fossil fuels while meeting performance requirements and lowering greenhouse gas emissions. They require only one input fuel, feature more efficient circuitry, and utilize cost-effective materials.

Mnano boasts numerous clients and research institutions that consistently validate its capability in processing fuel cells and similar materials (e.g., inkjet inks). Treated products achieve exceptional uniformity, with an average particle size below 200 nanometers. Few other technologies can match Mnano's high-pressure nano-homogenizers in effectiveness, and those that do cannot replicate our scale. If you manufacture catalysts or electrode materials, Mnano's high-pressure jet-impact nano-homogenization equipment will help you:

Reduce catalyst usage requirements

Improve dispersion efficiency for 10-nanometer coatings on metal plates

Produce more uniform electrodes, simplifying and standardizing post-processing

Ensure seamless scalability from lab to industrial production

‌Photovoltaic Cells‌

Photovoltaic (PV) or solar cells harness light as an energy source without requiring catalysts. Instead, they rely on multilayered materials to generate electricity. AS high-pressure jet-impact nano-homogenization enhances efficiency across the entire PV energy value chain:

‌Light Capture‌ – Solar cells often use carbon nanotubes (CNTs) to collect sunlight. AS technology excels at breaking, purifying, and dispersing CNTs.

‌Energy Conversion‌ – Cutting-edge reaction technology (MRT), a novel machine for nanoparticle production (including quantum dots), represents "disruptive innovation."

‌Execution‌ – Nano-suspensions must be uniformly dispersed for effective post-processing. AS's fixed-geometry interaction chamber creates a constant-pressure system, ensuring stable and consistent processing conditions.