Voltammetry study of Cr(III)/Cr(II) system in aqueous methanesulfonate solutions

“…1. They look like typical irreversible voltammetric responses [23,24]. With an increase in temperature, the peak potential of the discharge Cr(III)→Cr(II) shifts to more positive potentials value; in addition, the peak current grows both for sulfate system and for methanesulfonate one.…”

“…The visible surface of the working lead electrode was 0.28 cm 2 . The real electrode surface was determined by measuring the electrical double layer capacitance [23,42]. Prior to each electrochemical measurement Pb electrode was treated as a cathode in a separate electrochemical cell containing 0.01 M MSA solution during 30 min in order to clean the electrode surface by generated hydrogen (i = 2 A dm -2 ).…”

“…Recently [23,24] electrochemical and spectral characteristics of Cr(III) methanesulfonate complexes were investigated. Methanesulfonic acid (MSA) as well as its salts seem to be an attractive and perspective alterative to "common" electrochemical systems as MSA is considered as a "green acid" due to its environmental advantages [25].…”

“…The Cr(III) electroreduction process on the lead, cadmium and tin electrodes has been shown to be irreversible in electrolytes containing methanesulfonic acid [23,24]. The electroreduction of Cr(III)-MSA complexes proved to proceed via an outer-sphere mechanism.…”

Voltammetry study of Cr(III)/Cr(II) system in methanesulfonate and sulfate solutions: Temperature dependences

“…1. They look like typical irreversible voltammetric responses [23,24]. With an increase in temperature, the peak potential of the discharge Cr(III)→Cr(II) shifts to more positive potentials value; in addition, the peak current grows both for sulfate system and for methanesulfonate one.…”

“…The visible surface of the working lead electrode was 0.28 cm 2 . The real electrode surface was determined by measuring the electrical double layer capacitance [23,42]. Prior to each electrochemical measurement Pb electrode was treated as a cathode in a separate electrochemical cell containing 0.01 M MSA solution during 30 min in order to clean the electrode surface by generated hydrogen (i = 2 A dm -2 ).…”

“…Recently [23,24] electrochemical and spectral characteristics of Cr(III) methanesulfonate complexes were investigated. Methanesulfonic acid (MSA) as well as its salts seem to be an attractive and perspective alterative to "common" electrochemical systems as MSA is considered as a "green acid" due to its environmental advantages [25].…”

“…The Cr(III) electroreduction process on the lead, cadmium and tin electrodes has been shown to be irreversible in electrolytes containing methanesulfonic acid [23,24]. The electroreduction of Cr(III)-MSA complexes proved to proceed via an outer-sphere mechanism.…”

Voltammetry study of Cr(III)/Cr(II) system in methanesulfonate and sulfate solutions: Temperature dependences

“…4 Для измерения оптической плотности пробы электролитов разбавлялись в 100 раз, а затем концентрации всех осталь ных компонентов, кроме ионов Cr(III), доводилась до зна чений, использованных в исходном растворе для электро осаждения. T 1g , первый из которых (в длинноволновой области) связан с переходом электронов в системе энергетических термов центрального иона, а второй -с элек тронными переходами в системе термов цен трального иона и колебанием электронов коор динационной связи [29,30]. В растворе, приго товленном с использованием основного сульфата хрома(III) в качестве источника ионов хрома, на блюдается заметное увеличение интенсивности поглощения (так называемый гиперхромный эф фект), а также сдвиг максимумов поглощения в длинноволновую область (батохромное смеще ние) на ~2-3 нм (по сравнению с раствором на основе сульфата хрома(III)).…”

Электроосаждение Износостойких Нанокристаллических Покрытий Из Электролита, Содержащего Основной Сульфат Хрома(III) (Хромовый Дубитель)

Effect of water on electrodeposition behavior of zinc in a ChCl-urea-ZnO deep eutectic system