SEARCH Articles Figures Tables 2,6-Disubstituted phenols, activation Activated carbon adsorption of phenols Activated carbon phenol number Activated carbons phenol adsorption Activations phenols, pyridine Active Re-Cluster on HZSM-5 for the Phenol Synthesis Activity for phenol hydroxylation Adsorption of phenols on activated carbon Adsorptive Removal of Phenol by Activated Palash Leaves Alkali Metal Alcoholate and Phenolate Active Sites Antibacterial activity, phenolics Antifungal activity, phenolics Antimicrobial activity phenolics Antioxidant activity compared phenolic content, total Antioxidant activity of phenols Antioxidant activity phenolic diterpenes Benzene hydroxylation to phenol with iron impregnated activated carbon Biological Activity of Phenolics in Plant Cells Biomedical activity, phenolics Catalytically Active Structure and its Structural Transformation during the Phenol Synthesis Factors Affecting Phenolic Content and PAL Activity in Peach Fruit Ni-catalysed C-O Bond Activation of Phenol or Enol Derivatives Optically active phenolic Optically active phenolic ketones Phenol-formaldehyde reaction activation energy Phenolic acids antioxidant activity Phenolic acids biological activities Phenolic acids radical scavenging activity Phenolic acids, antioxidative activity Phenolic activity Phenolic activity Phenolic antioxidant activity Phenolic antioxidant activity bioactivity Phenolic antioxidant activity methods for evaluation Phenolic antioxidant activity substrates used Phenolic compound antioxidative activity Phenolic compound antioxidative activity oxidation products Phenolic compounds activations, pyridine Phenolic compounds antimicrobial activity Phenols antioxidative activity Phenols bacterial spore activity Phenols biological activities Phenols catalytic activity Phenols, antibacterial activity Phenols, antioxidant activity Phenols, quantitative structure-activity Phenols, quantitative structure-activity relationship Piperidine-phenols stabilizing activity Steroids phenolic, activity