Protection for plant tissue culture with nanotechnology
NanoBP is an innovative nanotechnological biocide developed to control microorganisms in in vitro cultures, ensuring efficiency, safety and productivity in biofactories.
50%
Contamination reduction
4
Tested cultures
5+
Partner laboratories
3+
Years of R&D
Nanotechnological innovation for plant biotechnology
NanoBP is developed to act directly on in vitro contamination control — the main challenge for laboratories and biofactories. Our technology uses nanoparticles with high capacity for interaction and directed action against microorganisms.
As a lower-cost national alternative, we expand access to innovation and strengthen the competitiveness of the sector, generating economic, social and environmental impact.
Mission
To elevate protection and productivity in plant tissue culture through innovative and accessible nanotechnological solutions.
Vision
To be a national and international reference in nanotechnological biocides for plant biotechnology by 2030.
Strategic Partners
CETENE
Centro de Tecnologias Estratégicas do Nordeste
Catalisa ICT
Programa do Sebrae voltado para pesquisadores, mestres e doutores
Sebrae
Soluções em Engenharia e Agronegócio
IncubaScience
Incubadora de Empresas de Base Científica
Nanoparticles with directed action
How NanoBP works in microbiological control
Active nanoparticles
Nanoparticles with specific biocidal properties are formulated for high efficiency against fungi, bacteria and other contaminating microorganisms.
Selective interaction
Nanometric-scale particles allow precise interaction with target microorganisms, preserving the integrity of plant tissues.
Sustained control
Prolonged action ensures continuous protection during micropropagation processes, reducing losses and optimizing resources.
Proven results in the field
NanoBP applications in plant tissue cultures with validated results
In vitro result
Hops
The use of NanoBP reduced contamination by 50% in in vitro hop cultivation compared to traditional techniques.
50% reduction in contamination
Input substitution
Black pepper
In in vitro production of black pepper, NanoBP acts as a substitute for agricultural fungicides used as defensives.
Fungicide substitute
Accelerated growth
Moringa
In in vitro cultivation of moringa, there was a higher germination speed of seeds treated with NanoBP.
Faster germination
Scientific validation
Melon
SEM (Scanning Electron Microscopy) analysis for evaluation of nanoparticle treatment for disinfestation and disease control.
Validated SEM analysis
Innovation ecosystem
Let's talk about your biofactory?
Schedule a free meeting with our team and discover how NanoBP can transform your results.
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