We propose a new broadband second-order proton-assisted C-13-C-13 correlation experiment, SHANGHAI. The C-13-C-13 magnetization transfer is promoted by H-1 irradiation with interspersed four phases super-cycling. This through-space homo-nuclear sequence only irradiates on the proton channel during the mixing time. SHANGHAI benefits from a large number of modulation sidebands, hence leading to a large robustness with respect to chemical shift differences, which permits its use in a broad MAS frequency range. At ultra-fast MAS nu(R) >= 60 kHz), SHANGHAI is only efficient when the amplitude of H-1 recoupling rf-field is close to half the spinning speed (nu(1) approximate to nu(R)/2). However, at moderate to fast MAS (nu(R) = 20-35 kHz), SHANGHAI is efficient at any rf-power level larger than nu(1) approximate to 10 kHz, which simultaneously permits avoiding excessive heating of bio-molecules, and using large sample volumes. We show that SHANGHAI can be employed at the very high magnetic field of 23.5 T and then allows the observation of correlation between C-13 nuclei, even if their resonance frequencies differ by more than 38 kHz.

• 出版日期2011-10
• 单位华东师范大学