2005
DOI: 10.1016/j.seppur.2005.05.006
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Studies on europium separation from a middle rare earth concentrate by in situ zinc reduction technique

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Cited by 38 publications
(17 citation statements)
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“…Ce 3+ (E 0 (Ce 4+ /Ce 3+ ) = +1.72 V) and Tb 3+ (E 0 (Tb 4+ /Tb 3+ ) = +3.10 V) can be oxidized to the +IV oxidation state, by which they are stabilized by an empty 4f subshell ([Xe] 4f 0 ) and by a halffilled 4f subshell ([Xe] 4f 7 ), respectively. Sm 3+ (E 0 (Sm 3+ /Sm 2+ ) = -1.55 V), Eu 3+ (E 0 (Eu 3+ /Eu 2+ ) = -0.34 V) and Yb 3+ (E 0 (Yb 3+ /Yb 2+ ) = -1.05 V) can be reduced to the +II oxidation state because of a stabilizing effect of a near-half filled ([Xe] 4f 6 ), a half-filled ([Xe] 4f 7 ) and a filled 4f subshell ([Xe] 4f 14 ), respectively. However, Sm 2+ and Yb 2+ in aqueous solutions tend to be 4 very short-lived because of their high oxygen-sensitivity and their high tendency to reduce water.…”
Section: Introductionmentioning
confidence: 99%
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“…Ce 3+ (E 0 (Ce 4+ /Ce 3+ ) = +1.72 V) and Tb 3+ (E 0 (Tb 4+ /Tb 3+ ) = +3.10 V) can be oxidized to the +IV oxidation state, by which they are stabilized by an empty 4f subshell ([Xe] 4f 0 ) and by a halffilled 4f subshell ([Xe] 4f 7 ), respectively. Sm 3+ (E 0 (Sm 3+ /Sm 2+ ) = -1.55 V), Eu 3+ (E 0 (Eu 3+ /Eu 2+ ) = -0.34 V) and Yb 3+ (E 0 (Yb 3+ /Yb 2+ ) = -1.05 V) can be reduced to the +II oxidation state because of a stabilizing effect of a near-half filled ([Xe] 4f 6 ), a half-filled ([Xe] 4f 7 ) and a filled 4f subshell ([Xe] 4f 14 ), respectively. However, Sm 2+ and Yb 2+ in aqueous solutions tend to be 4 very short-lived because of their high oxygen-sensitivity and their high tendency to reduce water.…”
Section: Introductionmentioning
confidence: 99%
“…Eu 3+ can be selectively reduced using chemical, electrochemical or photochemical techniques. [9][10][11][12][13][14][15] Oxidizing agents, such as dissolved oxygen (E 0 (O 2 /H 2 O) = +1.23 V), H + (E 0 (H + / H 2 ) = 0.00 V) or nitrate anions (E 0 (NO 3 -/NO) = +0.95 V, in presence of H + ), are usually avoided because of the high possibility for back-oxidation of Eu 2+ . Consequently, reduction of Eu 3+ is usually performed in media that are insensitive to reducing conditions, most often containing chlorides.…”
Section: Introductionmentioning
confidence: 99%
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“…Separation of REEs has become a bottleneck for their application since they have similar chemical properties . Traditional REEs separation processes include chemical precipitation, oxidation‐reduction,, adsorption, and solvent extraction . Among them, adsorption is a green technology for the separation of metal ions, and is a simple process, which can be performed in a single‐stage operation within a packed column and is environmentally benign, not using any organic solvents.…”
Section: Introductionmentioning
confidence: 99%
“…However, in contrast to other rare earths, Eu(III) can be relatively easily reduced to divalent state (E 0 = −0.43 V). Chemical reduction of Eu(III) with zinc powder followed by Eu(II) sulfate precipitation [2] is preferred way of Eu separation at an industrial scale. However, the presence of zinc would complicate Eu(II) separation by means of ion exchange or solvent extraction.…”
Section: Introductionmentioning
confidence: 99%