Turning Waste Biomass into High-Quality Graphene: A Revolution for Farming and Industry
Biomass
to
Graphene
How We Synthesize Graphene from Biochar
Synthesizing approaches
Even though there are many ways to synthesize graphene. Argo with AGIC mainly uses modified carbon pyrolytic, solvothermal reaction and CVD like carbon pyrolytic.
Graphene exfoliation
To produce graphene (<10 layers), we use Liquid Phase Exfoliation (LPE) approach using cavitation chemistry and ultra sonicating.
Argo Targets
Biomass-to-Graphene Development
Posted By Graphene Council, Thursday, January 9, 2025
Argo Living Soils Corp. (CSE: ARGO) (OTC Pink: ARLSF) (FSE: 94Y0) (“Argo” or the “Company”) is pleased to announce that it has entered into an MOU with PT. APLIKASI GRAFENA INDUSTRI & CONSULTING (AGIC) based in Jakarta, Indonesia. ARGO and AGIC wish to pursue a joint venture to build, own and operate a commercial graphene R & D manufacturing facility for Agricultural and Industrial applications in Indonesia.
ABOUT AGIC
PT Aplikasi Grafena Industri & Consulting (AGIC) is an Indonesian company specializing in low-cost, green, and sustainable synthetic bio-graphene and graphenic NP composites, made from specific biomass waste precursors. AGIC operates scalable micro-factories that minimize logistics and supply chain costs while requiring low capital investment for small-capacity production venues. This flexible model allows for efficient production assignments and scheduling.”
“We are excited to partner with AGIC, an innovative company, which has been able to create a low cost way of making very valuable graphene. Their patented and proprietary IP can convert waste biomass into high quality graphene which may revolutionize farming and industrial applications.”
Robert Intile, Director of Business Development
