Electrochemical Proton Reduction and Equilibrium Acidity (p<i>K</i><sub>a</sub>) in Aprotic Ionic Liquids: Phenols, Carboxylic Acids, and Sulfonic Acids
Cameron L. Bentley(Australian Research Council), Jie Zhang(Monash University)
Cited by 26
Related Papers
Electrocatalytic carbon dioxide reduction: from fundamental principles to catalyst design
|Materials Today Advances|2020|312
Self-Assembly of Organic−Inorganic Hybrid Amphiphilic Surfactants with Large Polyoxometalates as Polar Head Groups
|Journal of the American Chemical Society|2008|301
Voltammetric Determination of the Iodide/Iodine Formal Potential and Triiodide Stability Constant in Conventional and Ionic Liquid Media
|The Journal of Physical Chemistry C|2015|132
Oxygen vacancies and heterointerface co-boosted Zn2+ (De)intercalation kinetics in VO2 for ultra-efficient aqueous zinc-ion batteries
|Journal of Power Sources|2023|47
Electrochemical Proton Reduction and Equilibrium Acidity (p<i>K</i><sub>a</sub>) in Aprotic Ionic Liquids: Protonated Amines and Sulfonamide Acids
|The Journal of Physical Chemistry C|2015|27