Photocatalysis

Biochar-Supported Systems Achieve Over Ninety Percent Microplastic Removal Through Advanced Multi-Heterojunction Engineering
Biochar Composite Increases Antibiotic Degradation Rates by over Two Hundred Percent in Water Treatment Systems
New Sponge-Like Material Degrades 42 Percent of Organic Pollutants Using Harvested Mechanical Energy
Selective Biochar Performance Boosted by Molecular Imprinting for Better Water Remediation
Enhanced Magnetic Biochar Increases Heavy Metal Removal from Water and Soil by Over 400 Percent
Sustainable Biochar Composites Achieve 99.9 Percent Removal of Toxic Chromium in Water
Sustainable Nanoreactor Achieves 97.53% Removal of Persistent Water Pollutants
Biomass-Derived Photocatalysts Achieve Over Ninety-Seven Percent Degradation of Persistent Water Toxins
Zinc Oxide and Palm Shell Biochar Composite Achieves Over Eighty-Eight Percent Degradation of Toxic Textile Dye Waste
Biochar Composite Achieving 95 Percent Tetracycline Removal Through Solar Light Synergism