TY - JOUR
T1 - Tailored real-time scaling of heteronuclear couplings
AU - Schilling, Franz
AU - Glaser, Steffen J.
N1 - Funding Information:
We thank Dr. Jorge Neves for his support with decoupling experiments and Dr. Raimund Marx for assistance in the design and preparation of the test samples. F. S. thanks Fonds der Chemischen Industrie, the Faculty Graduate Center Chemistry, TUM Graduate School and the Institute for Advanced Study (IAS) at TUM for financial support. S.J.G. acknowledges support from the DFG (GI 203/6–1) and from Fonds der Chemischen Industrie.
PY - 2012/10
Y1 - 2012/10
N2 - Heteronuclear couplings are a valuable source of molecular information, which is measured from the multiplet splittings of an NMR spectrum. Radiofrequency irradiation on one coupled nuclear spin allows to modify the effective coupling constant, scaling down the multiplet splittings in the spectrum observed at the resonance frequency of the other nuclear spin. Such decoupling sequences are often used to collapse a multiplet into a singlet and can therefore simplify NMR spectra significantly. Continuous-wave (cw) decoupling has an intrinsic non-linear offset dependence of the scaling of the effective J-coupling constant. Using optimal control pulse optimization, we show that virtually arbitrary off-resonance scaling of the J-coupling constant can be achieved. The new class of tailored decoupling pulses is named SHOT (Scaling of Heteronuclear couplings by Optimal Tracking). Complementing cw irradiation, SHOT pulses offer an alternative approach of encoding chemical shift information indirectly through off-resonance decoupling, which however makes it possible for the first time to achieve linear J scaling as a function of offset frequency. For a simple mixture of eight aromatic compounds, it is demonstrated experimentally that a 1D-SHOT { 1H}- 13C experiment yields comparable information to a 2D-HSQC and can give full assignment of all coupled spins.
AB - Heteronuclear couplings are a valuable source of molecular information, which is measured from the multiplet splittings of an NMR spectrum. Radiofrequency irradiation on one coupled nuclear spin allows to modify the effective coupling constant, scaling down the multiplet splittings in the spectrum observed at the resonance frequency of the other nuclear spin. Such decoupling sequences are often used to collapse a multiplet into a singlet and can therefore simplify NMR spectra significantly. Continuous-wave (cw) decoupling has an intrinsic non-linear offset dependence of the scaling of the effective J-coupling constant. Using optimal control pulse optimization, we show that virtually arbitrary off-resonance scaling of the J-coupling constant can be achieved. The new class of tailored decoupling pulses is named SHOT (Scaling of Heteronuclear couplings by Optimal Tracking). Complementing cw irradiation, SHOT pulses offer an alternative approach of encoding chemical shift information indirectly through off-resonance decoupling, which however makes it possible for the first time to achieve linear J scaling as a function of offset frequency. For a simple mixture of eight aromatic compounds, it is demonstrated experimentally that a 1D-SHOT { 1H}- 13C experiment yields comparable information to a 2D-HSQC and can give full assignment of all coupled spins.
KW - Composite pulse decoupling
KW - GRAPE algorithm
KW - Heteronuclear decoupling
KW - Optimal control theory
KW - Pseudo-multidimensional NMR
KW - Scaling of J-couplings
UR - http://www.scopus.com/inward/record.url?scp=84865959734&partnerID=8YFLogxK
U2 - 10.1016/j.jmr.2012.07.024
DO - 10.1016/j.jmr.2012.07.024
M3 - Article
AN - SCOPUS:84865959734
SN - 1090-7807
VL - 223
SP - 207
EP - 218
JO - Journal of Magnetic Resonance
JF - Journal of Magnetic Resonance
ER -