Science

Unconfined Compressive Strength of Clayey Soils Climbs Over One Hundred Percent with Dual-Action Biochar and Bacterial Treatment
Artificial Intelligence Boosts Removal Rates for Forever Chemicals by Ninety-Five Percent and Lowers Material Costs Eighteen-Fold Through Advanced Biochar Design
Enriching Sugarcane Bagasse Biochar with Essential Nutrients Increases Soil Porosity by Seventy Percent and Significantly Improves Water Retention in Laterite Soils
Transforming Hydrothermal Process Water into Liquid Fertilizer Boosts Crop Yields by up to Twenty-Nine Percent
Rice Husk Biochar Seed Coating at Twenty Percent Concentration Increases Ethiopian Rice Yields by Seventy-Eight Percent
Thiol-Modified Biochar Nanoparticles Reduce Mercury Bioavailability by Seventeen Percent in Amazonian Soils
Sugarcane Bagasse Biochar Achieves 98.94% Biodiesel Conversion and 78% Increase in Concrete Tensile Strength
Sludge Biochar Immobilized Microbiome Increases Lead Root Absorption by 56.9% and Zinc Transfer by 30%
Converting Cottonseed Waste into Biochar Catalyst Achieves 83.5% Biodiesel Yield and Energy Self-Sufficiency
Synergistic Modifiers Reduce Average Heavy Metal Leaching by Over 75% in High-Salinity Coal Waste Backfill