Silicon-Based Nanozyme
Silicon-based nanozyme is a world-first agricultural nanozyme product developed by the Zhongyuan Nanozyme Laboratory. Unlike conventional fertilizers that merely supply nutrients, this product is a nanomaterial with peroxidase-like catalytic activity, which can precisely regulate the redox signals in plant cells.
It has an average particle size of 420 nm and a specific activity of 2.93±0.56×10⁻⁴ U/mg, maintaining stable catalytic activity within a pH range of 4 to 6 and a temperature range of 10–40°C. By inducing mild oxidative stress in plants, it activates the endogenous antioxidant pathways, promotes root development and nutrient uptake. Meanwhile, it remodels nitrogen metabolism and accelerates the conversion of amino acids into proteins.
Field trials have verified that foliar application on wheat delivers a yield increase of 18.74%, with the grain protein content rising by 16.8% and tryptophan content growing by 52.7%. It still achieves a 15.52% yield increase even in saline-alkali land.
Free from heavy metal residues, the product is eco-friendly. It can be applied via foliar spraying, soil application, seed coating and other methods, and is fully compatible with existing fertilization systems. Now commercially mass-produced, it serves as a core catalytic fertilizer additive for the next generation of green agriculture.
Key Advantages
1.Precise Redox Regulation: Intrinsic peroxidase-like activity generates controlled ROS signals to activate plant’s own defense system without oxidative damage.
2.Significant Yield & Quality Improvement: Field-verified 18.74% yield increase in wheat, up to 63.4% in blueberries; significantly increased grain protein, essential amino acids and iron content.
3.Broad Stress Tolerance: Enhances crop resistance to heat, salinity and drought; reduces corn ear rot by 33% under 42℃ extreme heat, increases rice yield by 12.9% in saline soil.
4.Improved Nitrogen Use Efficiency: Reprograms nitrogen metabolism pathway, accelerates conversion of free amino acids to protein synthesis, reduces nitrogen fertilizer waste and agricultural non-point source pollution.
5.Extreme Stability & Safety: Resistant to acid/alkali (pH 2-12) and temperature (-20℃ to 120℃), naturally degradable in soil with no residues.6.Fully Compatible with Existing Systems: No need to change traditional fertilization habits, can be directly formulated into compound fertilizers, foliar fertilizers, water-soluble fertilizers and biofertilizers.