SEARCH Articles Figures Tables Actinic activation electron-transfer equilibria Activated carbon electronic properties Activated ion electron capture dissociation Activation Energies in Surface Electron Transfer Reactions Activation Induced by Laser-Plasma Electrons Activation analysis electronics materials Activation electron transfer kinetics Activation electron tunneling through Activation electronic Activation electronic Activation energy electron concentration Activation energy for electron transfer Activation energy, biological electron Activation energy, biological electron transfer Activation parameters for electron transfer Activation parameters intramolecular electron transfer Activation photo-induced electron transfer Activation, in electron transfer Activator generated by electron transfer Activator generated by electron transfer AGET) Activators generated by electron Activators generated by electron transfer ATRP Activators regenerated by electron Activators regenerated by electron transfer Activators regenerated by electron transfer ARGET) ATRP Activators, in electron transfer Active Lone Electron Pair of Cations and Ionic Conductivity Active Matrix Addressing Electronics Active Site Electronic Structure ontributions to Reactivity Active aldehyde, electronic charges Active diamond electronics Active diamond electronics electronic device Active electron-conducting electrodes Active electronic devices Active electronics, oxide dielectric films Active electrons, CASSCF/CASPT2 calculations Active site electronic structure Active site electronic structure contributions Active site electronic structure reductase Active site electronic structure sulfite oxidase Active sites electron energy levels Active sites electron orbitals Applications, molecular electronics active elements Azine substitution , activation acyl groups, electronic effects Azine substitution , activation acyloxy groups, electronic effects Azine substitution , activation acylthio group, electronic effects Azine substitution , activation alkylthio group, electronic effects Azine substitution , activation aryl groups, electronic effects Azine substitution , activation aryloxy groups, electronic effects Biosensors based on direct electron transfer of other active enzymes Catalytic activity electron work function Catalytic activity valency electrons Catalytic electronic activation Complementary electronically active Complete active space self-consistent fields electronic structure Direct electron transfer of other active enzymes Electrically active polymers electronics Electron Activities and Free Energy Changes Electron Hydrido(dihydrogen) Complexes, Proton Transfer and C-H Activation Electron activation Electron activation Electron active component Electron activity Electron activity, hypothetical Electron beam activation Electron donor-acceptor complexes photochemical activation Electron effects - activator Electron mediated activation Electron oxidation activation Electron paramagnetic resonance active spin states Electron spectroscopy activation Electron spin resonance -active Electron spin resonance -active organic radicals Electron spin resonance -active paramagnetic species Electron spin resonance -active species Electron spin resonance -active transition metal ions Electron spin resonance active sites Electron transfer activation energy Electron transfer activation parameters Electron transfer dissociation supplemental activation Electron transfer, activation control Electron transfer, activation control adsorption Electron transfer, activation control catalysis Electron transfer, activation control diffusion limit Electron transfer, activation control dissociative Electron transfer, activation control homogeneous Electron transfer, activation control inner sphere Electron transfer, activation control irreversible Electron transfer, activation control mediated Electron transfer, activation control outer sphere Electron transfer, activation control reorganization energy Electron transfer, activation control reversible Electron transfer, activation control slow ( Electron transfer, free activation energy Electron transport system activity, calculating Electron-deficient reagents, activation Electron-rich reagents, activation Electron-transfer oxidation photochemical activation Electron-transfer oxidation thermal activation Electron-transfer reaction activation energy Electronic Bite Angle Effect and Activity Electronic Properties and Catalytic Activity Electronic contribution of active site Electronic devices, active/passive Electronic optical activity Electronic structure computations complete active-space Electronically activated Electronically activated metalloporphyrins Electronically active polymers Electronically active textiles Electronics materials, activation Energy of activation for electron transfer Fabrication of Multi-Layer Silicone-Based Integrated Active Soft Electronics Heterogeneous electron transfer thermal activation Heterolytic CH Activation with Electron-rich Metal Complexes Hydrogen activation electron paramagnetic resonance Infrared active bond electronic spectrum Inverse-Electron-Demand Reactions with Enamine-Activated Dienophiles Lewis Acid Activation by the Interactions with n Electrons Lone-electron pair, activity Measurement of Water Activity by Electronic Sensors Microbial electrochemical systems activate electron Mitochondrial electron transport biological activity Molecular electronics, electrically active Molecular electronics, electrically active polymers Neutron activation analysis electronics materials Nuclear Activation Using Electron Bunches from Laser Plasmas One-electron oxidation activation Oxidative activation electronic structure Oxygen Bridge Activation by an Electron-Donating Group at the Bridgehead Carbon Proton-coupled electron-transfer activation Quantitative structure-activity relationship electronic effects Quinolines, activation electron densities Redox-active centers electron transfer Relation of Activity to Surface Electronic Structure Silicone-Based Integrated Active Soft Electronics Single active-electron approximation Single-Electron Activation Stable singlet carbenes, electronically active Stereochemically active lone pair electrons Structure-activity relationships Electronic control Studies of Ultrafast Electron Transfer in a Light-Activated Protein Substitution reactions, nucleophilic active electrons Temperature-dependent electron tunneling. Methods of determining the activation energy The Electron Transfer Activation Energy and Solvent Reorganisation Term Thioglycosides single-electron activation