We propose a new
13C DEPTQ
+ NMR experiment, based on the improved DEPTQ experiment, which is designed to unequivocally identify all carbon multiplicities (Cq, CH, CH
2, and CH
3) in two experiments. Compared to this improved DEPTQ experiment,
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We propose a new
13C DEPTQ
+ NMR experiment, based on the improved DEPTQ experiment, which is designed to unequivocally identify all carbon multiplicities (Cq, CH, CH
2, and CH
3) in two experiments. Compared to this improved DEPTQ experiment, the DEPTQ
+ is shorter and the different evolution delays are designed as spin echoes, which can be tuned to different
1JCH values; this is especially valuable when a large range of
1J
CH coupling constants is to be expected. These modifications allow (i) a mutual leveling of the DEPT signal intensities, (ii) a reduction in
J cross-talk in the Cq/CH spectrum, and (iii) more consistent and cleaner CH
2/CH
3 edited spectra. The new DEPTQ
+ is expected to be attractive for fast
13C analysis of small-to medium sized molecules, especially in high-throughput laboratories. With concentrated samples and/or by exploiting the high sensitivity of cryogenically cooled
13C NMR probeheads, the efficacy of such investigations may be improved, as it is possible to unequivocally identify all carbon multiplicities, with only one scan, for each of the two independent DEPTQ
+ experiments and without loss of quality.
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