Revolutionizing agriculture with space technology

Revolutionizing agriculture with space technology

Our PCOP solution, based on technology developed for NASA, eliminates up to 99.99% of organic contaminants such as ethylene, mold and mycotoxins in air, surfaces, water, soil and crops, both pre and post-harvest.

Ecological innovation at the pace of modern agriculture

Ecological innovation at the pace of modern agriculture

We're revolutionizing agriculture with nanotechnology to protect crops, reduce losses, and extend productivity from seed to fruit.

Continuous protection without harsh chemicals

Continuous protection without harsh chemicals

NANOAGRO offers solutions based on nanotechnology filtration, eliminating bacteria, mold, fungi, and ethylene without producing toxic waste.

Extended lifespan and increased performance

Extended lifespan and increased performance

Our solutions increase post-harvest shelf life by up to 85%, reducing losses and improving business results.

Space technology applied to the field

Space technology applied to the field

Our advanced photocatalysis technologies were born for extreme environments like spacecraft, and today they drive local and global agricultural efficiency.

We are NANOAGRO

At NANOAGRO, we develop solutions based on nanotechnology and green chemistry to optimize agricultural and environmental processes.

Our products are designed to improve crop growth, strengthen their natural defenses, and contribute to the sustainability of production systems.

Biotechnological Solutions that Regenerate Air, Soil and Crops.

They promote healthier agricultural environments.

They promote healthier agricultural environments.

Technologies based on filtering nanotechnology and photocatalysis reduce the presence of ethylene, mold, bacteria and mycotoxins in air, water and soil, generating more stable and contaminant-free environments.

They extend the post-harvest shelf life.

They extend the post-harvest shelf life.

The treated crops maintain their firmness, color and commercial quality for longer, reducing losses from deterioration and oxidation by up to 85%.

They stimulate plant development from the root.

They stimulate plant development from the root.

Bioactive solutions increase germination, root vigor and photosynthesis, promoting more efficient nutrient absorption and balanced growth.

They strengthen natural defense mechanisms.

They strengthen natural defense mechanisms.

The elicitor action activates enzymatic and phytohormonal pathways that increase resistance to thermal, water, saline and biological stress.

They integrate space technology applied to agriculture.

They integrate space technology applied to agriculture.

Photocatalytic systems inspired by developments for NASA operate continuously, keeping agricultural ecosystems clean and safe without leaving toxic residues.

They optimize resources and operational sustainability.

They optimize resources and operational sustainability.

By reducing the use of agrochemicals and improving water and nutrient efficiency, the solutions contribute to regenerative and low-environmental-impact agriculture.

Actual Field Results by Crop Type

GERMINATION
Increased germination and root vigor.
More homogeneous growth.
Activation of beneficial microflora.
Greater tolerance to initial salinity.
SCALABILITY
Validated with over 14,000 plants.
Protocols applied in intensive systems.
It requires minimal local adaptation.
Measurable results in production.
PROCESSES
Reduction in the incidence of fungi.
Improved water retention of the substrate.
Optimization of fertilizer use.
Natural pest control (Thrips and Botrytis).
PRODUCTION
Untreated yield of 6.0 pounds.
Yield with AMEN JUICE™ of 10.2 pounds.
Average improvement to +69%.
Weeks of cultivation (without/with): 16 / 20.
OPERATION
Increased chlorophyll content.
Reduction of chemical pesticides.
Increased germination.
More efficient absorption of nutrients.
OBSERVATIONS
Increased post-harvest shelf life.
Controls fungi.
Strengthens vigor and chlorophyll.
Promotes fruit uniformity.
GERMINATION
Increased root vigor.
Visible increase in uniformity in emergency.
Activation of phytohormones for early development.
Greater early absorption of nutrients.
SCALABILITY
Validated trials with more than 22,000 seeds.
Replicable in hydroponics and soil.
Protocol adaptable to different varieties.
Verifiable commercial production data.
PROCESSES
Reduction of seedbed-greenhouse transition time by 20%
Simplification of nutritional management.
Less dependence on pesticides.
Preventive control of soil pests.
PRODUCTION
Untreated yield: 4.7 pounds.
Yield with AMEN JUICE™ of 5.8 pounds.
Average improvement: +24%
Weeks of cultivation (without/with): 20 / 25.
OPERATION
Greater chlorophyll and fruit size.
Reduction in Alternaria, Tuta Absoluta and Botrytis.
Reduction in production costs.
Increased post-harvest shelf life.
OBSERVATIONS
Production improvement between 20% – 50%
Pest and stress reduction.
Virus modulation.
Greater water efficiency.
GERMINATION
Acceleration of initial growth.
High rate of uniformity in outbreak.
Greater resistance to initial pathogens.
Increase in secondary roots.
SCALABILITY
Reproducible in different varieties and climates.
Compatible with hydroponic irrigation.
Requires low protocol adaptation.
Visible effects from the second week.
PROCESSES
Acceleration of the production cycle.
Reduction in the use of chemical inputs.
Improved moisture retention.
Tolerance to thermal variations.
PRODUCTION
Visible increase in total biomass.
Greater leaf density.
Increase in intense green color.
Noticeable improvement in taste and texture.
OPERATION
Reduction in Alternaria and Botrytis.
Improved post-harvest shelf-life.
Greater nutrient absorption.
Increased antioxidants and polyphenols.
OBSERVATIONS
Accelerate growth.
Salt tolerance.
Uniformity in harvest.
Improves post-harvest stability.
GERMINATION
Greater root vigor.
Hormonal activation of growth.
Seedling uniformity.
Better initial absorption.
SCALABILITY
Applicable to nurseries and greenhouses.
Replicable on mixed substrates.
Consistency across different batches.
Measurable protocols.
PROCESSES
Reduction of thermal and saline stress.
Greater resistance to disease.
Simplifying the irrigation schedule.
Lower incidence of Botrytis.
PRODUCTION
Visible increase in performance.
Firmer and more uniform fruit.
Better leaf-to-fruit ratio.
Increased post-harvest shelf life.
OPERATION
Reduction of Pseudomonas and Botrytis.
Improved vigor and chlorophyll.
Increase in polyphenols.
Pesticide reduction.
OBSERVATIONS
Increase in overall performance.
Reduces abiotic stress.
Improves commercial quality.
It upholds uniformity.
GERMINATION
Increase in primary roots.
Faster germination.
High uniform sprouting rate.
Hormonal activation of growth.
SCALABILITY
Reproducible in hybrid maize.
Validated on different soil types.
Compatible with application machinery.
Consistent results.
PROCESSES
Reduction of water loss.
Greater tolerance to drought.
Lower incidence of Alternaria.
Simplification of fertigation.
PRODUCTION
Visible improvement in ear size.
Increase in density per hectare.
Improved grain uniformity.
Average performance increase.
OPERATION
Greater vigor and chlorophyll.
Pesticide reduction.
Optimization of nutrient absorption.
Increase in antioxidants.
OBSERVATIONS
Drought tolerance.
Improves absorption and uniformity.
Greater photosynthetic efficiency.
Better use of water.
SPREAD
Significant reduction in mortality in cuttings (from 20% to 6%)
Faster and more vigorous rooting.
Greater uniformity in the development of young plants.
Operational savings in propagation.
SCALABILITY
Replicable and measurable application protocol.
Compatible with existing irrigation and application systems
Visible effects in less than 30 days.
Validated in vegetative and productive stages.
PROCESSES
Revitalizes declining plants and extends their productive cycle.
Promotes foliar and root renewal in adult plants.
It reduces the use of agrochemicals and improves nutritional efficiency.
It enhances photosynthesis and light conversion.
PRODUCTION
Increase in Brix degrees from 6.0 to 7.5 (+25%)
Sweeter, firmer fruit with a uniform color.
Greater flowering and number of fruits per plant.
It maintains quality throughout the entire cycle.
OPERATION
Pest reduction (natural mite control).
Extension of the production cycle without loss of quality.
Higher return on investment and operational efficiency.
Biodegradable, safe and easy to integrate product.
OBSERVATIONS
It increases the longevity and productivity of plants.
It improves fruit quality and crop vitality.
Ideal for propagation and maintenance of mother plants.
Compatible with organic and conventional agriculture.
GERMINATION
Increased root vigor and seedling uniformity.
Activation of phytohormones (auxins and gibberellins) for initial growth.
Acceleration of the outbreak in 2–3 days compared to the control.
Greater early absorption of micronutrients (Ca, Mg, Fe).
SCALABILITY
Validated trials in fertigation systems and mixed substrates.
Protocol adaptable to sweet and spicy varieties.
Replicable in soils, hydroponics and protected crops.
Consistent results in vegetative and floral stages.
PROCESSES
Reduction of thermal and saline stress by up to 30%.
Greater resistance to Alternaria, Phytophthora and Oidium.
Reduction in the use of fungicides and chemical fertilizers.
Increased photosynthesis and metabolic efficiency.
PRODUCTION
Average performance increase: +28%
Firmer, shinier fruit with better uniform coloring.
Greater number of fruits per plant and weight per unit.
Extension of the production cycle and retention of post-harvest quality.
OPERATION
Increased leaf chlorophyll and photosynthetic rate.
20–25% reduction in losses due to fungi and bacteria.
Lower incidence of Botrytis and Pseudomonas.
Post-harvest shelf life improvement of up to +40%
OBSERVATIONS
Improvement of commercial quality: caliber, color and texture.
Reduction of abiotic stress and greater water efficiency.
Increase in soluble solids content or Brix degrees.
Compatible with organic and conventional agriculture.
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Results vary by crop, variety, and management practices. Figures do not guarantee results. Conduct local validations and consult a technician. For NANOAGRO reports and protocols, contact ags@nano-agro.com.

Background

NANOAGRO's presence in Latin America and the Caribbean

We are conducting trials in 5 countries across the region

Latin America Map
Panama
Peru
Colombia
Ecuador
Dominican Republic
Panama flag

Panama

Main crops:
Tomatoes Bell peppers Coffee
Key results:
Results of the on-site tests coming soon.
Local contact:
management@nano-agro.com
Peru flag

Peru

Main crops:
Study on corn crops with the La Molina Agrarian University. Grapes Asparagus Corn
Key results:
Results of the on-site tests coming soon.
Local contact:
management@nano-agro.com
Colombia flag

Colombia

Main crops:
Tomatoes Bell peppers Coffee Oil Palm
Key results:
Results of the on-site tests coming soon.
Local contact:
management@nano-agro.com
Ecuador flag

Ecuador

Main crops:
Bananas
Key results:
Results of the on-site tests coming soon.
Local contact:
management@nano-agro.com
Dominican Republic flag

Dominican Republic

Main crops:
Tomatoes Eggplants Paprika Banana Sugarcane
Key results:
Results of the on-site tests coming soon.
Local contact:
management@nano-agro.com
+50,000
Hectares treated in LATAM
1 3

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Our technical team guides you step-by-step through the application of Amen Juice based on crop type, growth stage, and soil conditions. Optimize your processes with a versatile, field-proven, and living solution.

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