tetracycline

ZnO-Modified Biochar from Invasive Weeds Achieves Over Ninety Percent Removal of Pharmaceuticals in Wastewater Treatment
Traditional Chinese Medicine Herb Residues Derived High-Performance Biochar Attained Higher Adsorption Capacities of Lead and Tetracycline
Selective Hydrogen Bonding Increases Doxycycline Adsorption Rates on Biochar by Over Fifty Percent Compared to Other Tetracyclines
Sustainable Pine-Bark Biochar Achieves Complete Removal of Antibiotics from Aquaculture Water
High-Efficiency Antibiotic Removal: Chestnut Shell Biochar Electrode Achieves 90.6% Tetracycline Degradation and 20-Cycle Stability
Low-Cost Magnetic Biochar from Solid Waste Achieves an 87.39 mg/g Adsorption Capacity for Tetracycline
Biochar from Waste Materials Cleans Water with 87.39 mg/g Adsorption Capacity
MSBC 900 Biochar Achieves 48.33 mg/g Tetracycline Adsorption and Retains Over 90% Efficiency After 5 Cycles
Trends in Tetracycline Adsorption Research: 567 Articles Show Rapid Growth, Led by China, USA, and India, with Biochar and MOFs Trending
Adsorption Capacity of Biochar for Tetracycline Peaks at 637.71 mg/g with Sulfuric Acid and 700∘C Pyrolysis