| Literature DB >> 29560242 |
Christian Adam1,2, Björn B Beele1,2, Andreas Geist1, Udo Müllich1, Peter Kaden1, Petra J Panak1,2.
Abstract
C5-BPP is a highly efficient N-Entities:
Year: 2014 PMID: 29560242 PMCID: PMC5811079 DOI: 10.1039/c4sc03103b
Source DB: PubMed Journal: Chem Sci ISSN: 2041-6520 Impact factor: 9.825
Scheme 1Synthesis and labeling of the pyrazole moiety in C5-BPP with 10% 15N; adapted from the synthesis protocol in ref. 20.
Fig. 1Molecular structure and numbering scheme of the [243Am(C5-BPP)3]3+ complex.
Chemical shifts of the nitrogen atoms in M(C5-BPP)3(OTf)3 complexes and in the free ligand. All values are given in ppm relative to NH4Cl (δ(15N) = 0 ppm)
| Metal | N1 | N8 | N9 |
| none | — | 287 | 205 |
| Y | 260 | 262 | 205 |
| La | 266 | 272 | 206 |
| Sm | 221 | 224 | 205 |
| Yb | — | 20 | 194 |
| Lu | 261 | 265 | 205 |
| Am | 1 | –22 | 212 |
Labeled values are taken from 2D 1H,15N-gHMQC spectra of the 1 : 3 complexes with unlabeled C5-BPP.
Fig. 215N direct excitation spectra in MeOD-d4 of all C5-BPP complexes in this study. N9 signals are labeled with green circles, N8 signals with red circles.
Fig. 3Chemical shift differences between the NMR signals in the Sm(iii) (top) and Am(iii) (bottom) complexes compared to the La(iii) complex for all nuclei. All values are given in ppm.
Fig. 41H,15N-gHMQC spectrum of Am[({15N}C5-BPP)3](OTf)3 in MeOD-d4, optimized for a coupling constant JHN = 5 Hz. The expected value range is taken from similar experiments with the diamagnetic lanthanide complexes. The correlation signals in the gray circles originate from an additional minor complex species.
Fig. 5Sections of the 15N direct excitation spectra of [Am({15N}C5-BPP)3](OTf)3 in MeOD-d4 at increasing temperatures (N9 left side, N8 right side). All spectra are referenced to the internal standard TMS by the lock signal.
Fig. 6Normalized fluorescence spectra of Cm(iii) in MeOD-d4 with increasing amount of C5-BPP. [Cm(iii)]ini = 6.6 × 10–8 mol L–1, [Am(iii)]ini = 6.0 × 10–6 mol L–1.