Spectroscopy and crystal structure of neodymium coordination compound with glycine: Nd2(Gly)6·(ClO4)6·9H2O
暂无分享,去创建一个
[1] H. Brittain. Solution chemistry of lanthanide complexes.5. Circularly polarized luminescence studies on Tb(III) mixed-ligand complexes containing L-aspartic acid , 1983 .
[2] W. Horrocks,et al. Lanthanide ion luminescence probes. Measurement of distance between intrinsic protein fluorophores and bound metal ions: quantitation of energy transfer between tryptophan and terbium(III) or europium(III) in the calcium-binding protein parvalbumin , 1981 .
[3] J. Rao,et al. Crystal structure of tris(glycine)calcium(II)diiodide monohydrate , 1981 .
[4] H. Brittain,et al. Solution chemistry of lanthanide complexes—III: Spectroscopic studies of lanthanide complexes of glycine and polyglycines , 1981 .
[5] H. Brittain. Intermolecular energy transfer between lanthanide complexes in aqueous solution. 4. Stereoselectivity in the transfer from terbium(III) to europium(III) complexes of aspartic acid , 1979 .
[6] R. Martin,et al. Lanthanides as probes for calcium in biological systems , 1979, Quarterly Reviews of Biophysics.
[7] W. Horrocks,et al. Lanthanide ion probes of structure in biology. Laser-induced luminescence decay constants provide a direct measure of the number of metal-coordinated water molecules , 1979 .
[8] R. Martin,et al. Terbium (III) emission as a probe of calcium(II) binding sites in proteins. , 1976, Journal of the American Chemical Society.
[9] R. Martin,et al. Lanthanide complexes of amino acids , 1974 .