We follow the TRL (Technology Readiness Level) methodology, developed by NASA, to ensure clarity and efficiency at every stage of technological development. InSILICO operates from the earliest phases, identifying client needs, defining effective strategies, and proposing innovative, tailored solutions. The subsequent TRL stages are carried out by our team in collaboration with subject, matter experts, ensuring agility, technical excellence, and a strong focus on results
Development of the Initial Concept
Generation of Innovative Ideas with Technological Potential.
Everything begins with a promising idea, rooted in a real need or an untapped technological opportunity
Basic Research
Scientific exploration to understand fundamental principles.
We conduct theoretical and experimental studies to uncover the scientific foundations that support the idea.
In silico test
Computational Simulations to Assess Initial Feasibility.
We leverage computational simulations to validate the initial feasibility of the concept, saving both time and resources.
Applied Research
Laboratory Experiments Focused on Practical Application.
We transform the idea into an experimental model, emphasizing real-world applications and tangible results.
Small-Scale Testing
Initial Validation of Technology in a Controlled Environment.
We conduct laboratory tests or controlled environment experiments to validate functionality on a reduced scale
Pilot-Scale Implementation
Real-World Conditions on a Smaller Scale.
We take the technology into a real operational environment, but still on a pilot scale, for further adjustments and more robust validations.
Prototype Testing
Functional Prototype Developed and Field-Tested.
We develop and test the prototype under real-world conditions, focusing on efficiency and stability.
Demonstration, Pre-Commercial Phase, and Commercial Application
We conduct a full functional demonstration of the technology in a real operational environment, then prepare the technology for market entry by adjusting production processes and commercial strategies.
Ultimately, the technology is validated, market-ready, and poised to generate economic and social impact.
With InSILICO, your innovation goes further.
No matter the stage of your idea, our team is ready to accelerate your journey toward innovation with real impact.
In 2020, the InSILICO participated in the Mining Lab Challenge by Nexa Resources. Among the 178 submitted proposals, the InSILICO and five other companies WON the competition.
The proposal of InSILICO in this project was to use in silico methods to guide the planning and development of NEW FUNCTIONAL MATERIALS from the large amount of waste generated (approximately 300,000 tons/month of waste).
In this project, the InSILICO was able to propose, within eight months, eight promising applications for the generated waste, such as POLLUTANT ADSORPTION, HYDROGEN PRODUCTION, COMPOSITE PRODUCTION with adsorption potential, SUSTAINABLE MATERIALS, among others.
This project is currently at an ADVANCED LEVEL OF TECHNOLOGICAL MATURITY, and one of the technologies proposed by in silico methods is already being scaled up to an industrial level and with PROMISING RESULTS for the adsorption market.
The InSILICO has already delivered promising results for the Agro sector. In this project, the proposal involved to use in silico methods (Molecular Modeling and Artificial Intelligence) to discovery of new bioactive compounds with fungicidal action, aimed to combat soybean rust
In this project, the InSILICO was able to propose, in eight months, a total of fifteen NEW potential fungicides that act on three different and important molecular targets for soybean rust.
As the second stage of this project, in vivo field tests are already being conducted with some of the compounds discovered through in silico methods.
Some companies have already invested in using in silico methods to GUIDE THE DISCOVERY OF NEW COMPOUNDS THAT ACT AGAINST ECTOPARASITES.
In these projects, we use our Intelligence Platform to search for new bioactive compounds with ectoparasites action against, targeting different molecular targets to combat cattle tick (Rhipicephalus microplus).
As the second stage of this project, in vitro tests (proof of concept) will be conducted on the selected molecular targets, followed by in vivo field tests.
DISCOVERY OF A NEW MOLECULE that reduces methane emissions from ruminants. (Project Approved by FINEP in 2022)
Discovery of a NEW Molecule – reduce muscle fat and increase feed efficiency in animal production
