Sustainable Agriculture

Argo Living Soils Signs MOU with AGIC to Develop Graphene Facility

Argo Living Soils Corp. announced an MOU with AGIC to build and operate a commercial graphene R&D and manufacturing facility in Indonesia.

Key Takeaways:

  • Argo Living Soils Corp. (CSE: ARGO) has signed an MOU with PT. APLIKASI GRAFENA INDUSTRI & CONSULTING (AGIC) to establish a joint venture for a commercial graphene R&D and manufacturing facility in Indonesia.
  • AGIC, Indonesia’s first graphene application developer, focuses on low-cost synthetic Bio Graphene and Graphene Nano Particle composites derived from biomass waste.
  • The partnership aims to produce graphene-based fertilizers and explore industrial applications such as semiconductors, solar photovoltaic, and water filtration.
  • Graphene’s properties, including high conductivity, flexibility, and strength, position it as a transformative material for agricultural and industrial sectors.
  • The facility will collaborate with the Advanced Materials & Nano Technology Research Centre – ITS to scale up production and commercialization.

What Is the Purpose of the MOU Between Argo Living Soils and AGIC?

Argo Living Soils Corp. (Profile) announced an MOU with AGIC, a Jakarta-based graphene application developer, to build and operate a commercial graphene R&D and manufacturing facility in Indonesia. This partnership seeks to leverage AGIC’s expertise in producing cost-effective graphene from biomass waste for agricultural and industrial applications.

Robert Intile, Director at Argo, highlighted the potential of the collaboration: “We are excited to partner with AGIC, an innovative company that has developed a low-cost way to produce valuable graphene. Their ability to convert waste biomass into high-quality graphene may revolutionize farming and industrial applications.”


What Technologies Will the Joint Venture Focus On?

AGIC’s proprietary technologies include:

  • Bio Graphene and Graphene Nano Particle composites derived from biomass waste
  • Graphene-based fertilizers (G-ONBF/PGR Series), integrating plant growth regulators to enhance agricultural productivity
  • Graphene Micro Factory production model capable of producing 5 kg of Bio Graphene per batch and 300 liters of liquid composites per batch

The partnership will focus on scaling up these technologies for commercial production.


What Are the Potential Industrial Applications of Graphene?

AGIC’s graphene technology extends beyond agriculture. The joint venture will explore industrial applications including:

  • Semiconductors and solar photovoltaic systems
  • Computer chip wafers and machine vision lenses
  • Atmospheric water generators and desalination
  • Batteries, transistors, and supercapacitors
  • Graphene-enhanced concrete and asphalt
  • DNA sequencing and biomedical innovations

Graphene’s unique properties, such as high electrical conductivity, strength, and flexibility, make it a valuable material for diverse industries.


Why Is Graphene Important for Agriculture and Industry?

Graphene, made of pure carbon atoms arranged in a hexagonal lattice, is the world’s thinnest material and offers exceptional conductivity, strength, and flexibility. It holds potential for improving crop yields, enhancing fertilizers, and developing sustainable technologies in energy, water, and infrastructure.


What’s Next for Argo Living Soils and AGIC?

AGIC is ready for commercial production and continues to conduct field trials for agricultural products. With this joint venture, Argo and AGIC will focus on scaling their production capabilities and expanding the market reach of graphene-based solutions. AGIC’s technologies could revolutionize agricultural field practices and open new opportunities in industrial innovation.

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