To define helix bio innovative solution is to iterate that the notation of helix bio is soil enriching itself and then those microorganisms were themselves grown sustainably, in compact sunlight-fueled bioreactors. The self-reliant helix will efficiently split water into hydrogen and oxygen gas by pairing silicon (the material that solar panels are made with) with catalyst coatings. The hydrogen gas can be stored on-site and used to drive fuel cells; providing a way to store and use power generation that originates from the sun.
Now what Problems will Helix Bio solve? Helix bio can protect crops to ascertain a better harvest.

Technological intervention of helix bio can advance agricultural technology. Genetic modification along with new crop varieties and land management techniques. Furthermore, the usage of hazardous fertilizers will decline and eventually will shift from energy intensive process fed by fossil fuels reliant on a robust fabrication of farming manures which is an oomph rigorous procedure to a more hereditary alteration with harvest variability and terrestrial automation method sought to cover amplified stresses in agroforestry. To widen the aperture, the question arises ‘Who will benefit from the proposed solution of Helix Bio’.
European entities will be able to benefit from subsistence farmers from industrial and agriculture profitable distribution particularly Innovation and Infrastructure, Responsible Consumption, Production, and Climate Action.

How is helix bio unique and different from existing solutions?
The helix bio-generated microorganisms with the formation of Al bioreactors covered in catalyst coating has tremendous impact and ability to advance crop profits without fertilizers to protect the crops. The Al bioreactors will observe ammonia and phosphorus from external climate and internal metamorphic rock surface making it ideal to combat climate change. The technology is equipped with practical application that can create a paradigm shift in food security in 21st century.

https://www.linkedin.com/in/nayabzahra/

• Africa
• Asia and Pacific
• Eastern Europe
• Latin America and the Caribbean
• Western Europe and North America

"Putting emphasis on advent of globalization and innovation, it is essential to advance
adeptness of education through technological methodology with current conventional
methods opted by educational institutions in order to find a solution which focuses on the
new set of actions and policies that would enable the individuals to satisfactorily achieve
their academic goals within the community and world at large. Comparison of rational and
initial decisive strategic action plan by developed, developing and underdeveloped nations.
Furthermore, incur of livelihood satisfaction is crucial and great ethical standards by
practitioners ought to be practiced; facilitating to improve enthusiasm of students, forming
interest that is not bounded, building objectivity at the time of crises in order to move
towards enriching academic performance and creating favourable cohesive solution is
crucial. Central Asia and Europe is the primary focus. Helix bio under S.D_Nexus and alignment of The European Union which has set an ambitious goal to reduce greenhouse gas emissions by at least 55% by 2030 compared to 1990 levels. To achieve this goal, the EU has implemented various policies such as the Emissions Trading System which puts a cap on carbon emissions for certain industries, and the Renewable Energy Directive, which sets a target of 32% renewable energy by 2030. Additionally, the EU is investing heavily in research and development to develop new technologies that will enable further reductions in carbon emissions. Thus the formation of helix bio taken as a quantum leap."

"Helix Bio" presents a sustainable approach to agriculture by reducing reliance on energy-intensive fertilizers, introducing innovative technology for crop protection, and contributing to climate change mitigation. The potential benefits for subsistence farmers and profitable distribution channels enhance the solution's long-term impact on agricultural sustainability and food security.

Environmental Sustainability: "Helix Bio" contributes to environmental sustainability by proposing a solution that protects crops, reduces the usage of hazardous fertilizers, and utilizes renewable energy sources. Innovation and Infrastructure: Introducing bioreactors with catalyst coatings demonstrates technological innovation, contributing to the development of sustainable infrastructure in agriculture. Climate Action: The solution's ability to capture ammonia and phosphorus from the environment aligns with climate action efforts, addressing challenges related to climate change.