Sorption radioaktiver Isotopen an Niederschlägen XII. Elution von Spaltprodukten aus der Mangan(IV)-hydroxidsäule

“…6c) during the third cathodic scan taken as an example. We note a slight increase in the regions corresponding to O 2 evolution (PPC 3 ) and I c peak (PIC 3 ), even in the absence of reduction, while the EM loss is about 100 g/Ᏺ in the regions of peaks II c and IV c (PIIC 3 and PIVC 3 , respectively). In the region of peak III c (PIIIC 3 ), the loss is about 20 g/Ᏺ.…”

“…We note a slight increase in the regions corresponding to O 2 evolution (PPC 3 ) and I c peak (PIC 3 ), even in the absence of reduction, while the EM loss is about 100 g/Ᏺ in the regions of peaks II c and IV c (PIIC 3 and PIVC 3 , respectively). In the region of peak III c (PIIIC 3 ), the loss is about 20 g/Ᏺ. Finally, the total effective mass loss observed between points A 3 and B 3 is about 300 g per 2 Ᏺ (Fig.…”

“…In the negative potential region (NPC 3 in Fig. 6 and NPA 3 in Fig. 7), we do not observe electrochemical reactions but a small capacitive current, I cap , and an important oxygen reduction current, I O 2 , on the I-E profile (Fig.…”

“…Published data relative to solid-state electrochemistry and X-ray diffraction (XRD) show that the mass variation during solid-state oxidation and reduction is 18 g per Mn. [3][4][5][6][7][8][9][10][11][12][13][14] As already observed in 10 M KOH solution several peaks are observed in 1 M KOH solution, but the absolute and the relative intensity of each one is different. The existence of these peaks and shoulders during reduction of Mn(IV) into Mn(II) implies that electrochemical reactions, chemical reactions (disproportionation), and physical processes (dissolution and deposition) take place.…”

“…The overall exchanged mass corresponds to (18m)Ϫ2 g/Mn. In published data, 3,4 Mn(OH) 4 is described as the most hydrated manganese dioxide variety, which corresponds to m ϭ 2. The layer structure such as birnessite allows incorporation of 1 H 2 O molecule.…”

Voltammetric and Electrogravimetric Study of Manganese Dioxide Thin Film Electrodes: II. Chemically Deposited Films

“…6c) during the third cathodic scan taken as an example. We note a slight increase in the regions corresponding to O 2 evolution (PPC 3 ) and I c peak (PIC 3 ), even in the absence of reduction, while the EM loss is about 100 g/Ᏺ in the regions of peaks II c and IV c (PIIC 3 and PIVC 3 , respectively). In the region of peak III c (PIIIC 3 ), the loss is about 20 g/Ᏺ.…”

“…We note a slight increase in the regions corresponding to O 2 evolution (PPC 3 ) and I c peak (PIC 3 ), even in the absence of reduction, while the EM loss is about 100 g/Ᏺ in the regions of peaks II c and IV c (PIIC 3 and PIVC 3 , respectively). In the region of peak III c (PIIIC 3 ), the loss is about 20 g/Ᏺ. Finally, the total effective mass loss observed between points A 3 and B 3 is about 300 g per 2 Ᏺ (Fig.…”

“…In the negative potential region (NPC 3 in Fig. 6 and NPA 3 in Fig. 7), we do not observe electrochemical reactions but a small capacitive current, I cap , and an important oxygen reduction current, I O 2 , on the I-E profile (Fig.…”

“…Published data relative to solid-state electrochemistry and X-ray diffraction (XRD) show that the mass variation during solid-state oxidation and reduction is 18 g per Mn. [3][4][5][6][7][8][9][10][11][12][13][14] As already observed in 10 M KOH solution several peaks are observed in 1 M KOH solution, but the absolute and the relative intensity of each one is different. The existence of these peaks and shoulders during reduction of Mn(IV) into Mn(II) implies that electrochemical reactions, chemical reactions (disproportionation), and physical processes (dissolution and deposition) take place.…”

“…The overall exchanged mass corresponds to (18m)Ϫ2 g/Mn. In published data, 3,4 Mn(OH) 4 is described as the most hydrated manganese dioxide variety, which corresponds to m ϭ 2. The layer structure such as birnessite allows incorporation of 1 H 2 O molecule.…”

Voltammetric and Electrogravimetric Study of Manganese Dioxide Thin Film Electrodes: II. Chemically Deposited Films

Sorption of small amounts of europium(III) on iron(III) hydroxide and oxide