Add to ORKGIn a previous work, a family of cobalt complexes derived from the fluorinated diphenylglyoxime ligand ("dAr^FgH_2") was synthesized. These complexes, [Co(dAr^FgH)_2(py)_2] (1 ) and [Co(dAr^FgH-BF_2)_2(py)_2] (2 ), are variations of the extensively studied diglyoxime systems [Co(dRgBF_2)_2L_2] (R = Me, phenyl), which have been shown to catalyze hydrogen evolution at low overpotentials. Like these catalysts, 2 minimizes energy losses by generating hydrogen at negligible thermodn. overpotentials in electrocatalysis expts. Through cyclic voltammetry, it was detd. that hydrogen evolution is occurring in protic solns. at the second redn. potential (-0.88 V vs. Its precursor, 1 , was also characterized and studied as a means of better underst...
Density functional theory calculations were carried out to study the electrochemical properties incl...
International audienceThe perspective of integrating molecular catalysts for hydrogen evolution into...
A series of cobalt complexes with macrocyclic imine ligands such as difluoroboryldiglyxomime and [14...
In a previous work, a family of cobalt complexes derived from the fluorinated diphenylglyoxime ligan...
Cobalt complexes supported by diglyoxime ligands of the type Co(dmgBF_2)_2(CH_3CN)_2 and Co(dpgBF_2)...
International audienceCobalt(diimine-dioxime) complexes catalyze hydrogen evolution with low overpot...
The design of efficient, robust, and inexpensive hydrogen evolution catalysts is important for the d...
In the presence of moderately strong acids in MeCN, Co complexes with BF2-bridged diglyoxime ligands...
Cobaloximes are a series of macrocyclic cobalt complexes that have been shown to catalyze the hydrog...
International audienceMimicking photosynthesis and producing solar fuels is an appealing way to stor...
Cobaloximes are macrocyclic complexes well-studied as homogeneous catalysts for hydrogen evolution, ...
A theoretical framework has been formulated to gain mechanistic insight into molecular hydrogen evol...
Natural photosynthesis uses sunlight to drive the conversion of energy-poor molecules (H_2O, CO_2) ...
International audienceHydrogen production through the reduction of water appears to be a convenient ...
Density functional theory calculations were carried out to study the electrochemical properties incl...
International audienceThe perspective of integrating molecular catalysts for hydrogen evolution into...
A series of cobalt complexes with macrocyclic imine ligands such as difluoroboryldiglyxomime and [14...
In a previous work, a family of cobalt complexes derived from the fluorinated diphenylglyoxime ligan...
Cobalt complexes supported by diglyoxime ligands of the type Co(dmgBF_2)_2(CH_3CN)_2 and Co(dpgBF_2)...
International audienceCobalt(diimine-dioxime) complexes catalyze hydrogen evolution with low overpot...
The design of efficient, robust, and inexpensive hydrogen evolution catalysts is important for the d...
In the presence of moderately strong acids in MeCN, Co complexes with BF2-bridged diglyoxime ligands...
Cobaloximes are a series of macrocyclic cobalt complexes that have been shown to catalyze the hydrog...
International audienceMimicking photosynthesis and producing solar fuels is an appealing way to stor...
Cobaloximes are macrocyclic complexes well-studied as homogeneous catalysts for hydrogen evolution, ...
A theoretical framework has been formulated to gain mechanistic insight into molecular hydrogen evol...
Natural photosynthesis uses sunlight to drive the conversion of energy-poor molecules (H_2O, CO_2) ...
International audienceHydrogen production through the reduction of water appears to be a convenient ...
Density functional theory calculations were carried out to study the electrochemical properties incl...
International audienceThe perspective of integrating molecular catalysts for hydrogen evolution into...
A series of cobalt complexes with macrocyclic imine ligands such as difluoroboryldiglyxomime and [14...