镧系元素与硝酸盐在不同温度下的络合作用：热力学与配位模式

Complexation of lanthanides with nitrate at variable temperatures: thermodynamics and coordination modes.

作者信息

Rao Linfeng, Tian Guoxin

机构信息

Lawrence Berkeley National Laboratory, Berkeley, California 94720, USA.

出版信息

Inorg Chem. 2009 Feb 2;48(3):964-70. doi: 10.1021/ic801604f.

DOI:10.1021/ic801604f

PMID:19115981

Abstract

Complexation of neodymium(III) with nitrate was studied at variable temperatures (25, 40, 55, and 70 degrees C) by spectrophotometry and microcalorimetry. The NdNO(3)(2+) complex is weak and becomes slightly stronger as the temperature is increased. The enthalpy of complexation at 25 degrees C was determined by microcalorimetry to be small and positive, 1.5 +/- 0.2 kJ x mol(-1), in good agreement with the trend of the stability constant at variable temperatures. Luminescence emission spectra and the lifetime of Eu(III) in nitrate solutions suggest that inner-sphere and bidentate complexes form between trivalent lanthanides (Nd(3+) and Eu(3+)) and nitrate in aqueous solutions. A specific ion interaction approach was used to obtain the stability constants of NdNO(3)(2+) at infinite dilution and variable temperatures.

摘要

通过分光光度法和微量量热法，在不同温度（25、40、55和70摄氏度）下研究了钕（III）与硝酸盐的络合作用。NdNO(3)(2+)络合物较弱，且随着温度升高而略有增强。通过微量量热法测定，25摄氏度下的络合焓较小且为正值，为1.5±0.2 kJ·mol(-1)，这与不同温度下稳定常数的趋势高度吻合。硝酸盐溶液中铕（III）的发光发射光谱和寿命表明，三价镧系元素（Nd(3+)和Eu(3+)）与硝酸盐在水溶液中形成了内界和双齿络合物。采用特定离子相互作用方法获得了无限稀释和不同温度下NdNO(3)(2+)的稳定常数。

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镧系元素与硝酸盐在不同温度下的络合作用：热力学与配位模式

Complexation of lanthanides with nitrate at variable temperatures: thermodynamics and coordination modes.

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