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ge-2D semi-selective ROESY

DESCRIPTION
The ge-2D semi-selective ROESY experiment is a gradient-enhanced band-selective version of the 2D ROESY experiment. By the use of some band-selective excitation method, only part of the 1H spectrum is evolving during the conventional variable t1 period or/and the proton acquisition period. In this way, a conventional 2D ROESY spectrum is partially recorded with improved resolution and t1-noise.

REQUIREMENTS
Easy implementation on any AVANCE spectrometer equipped with pulsed field gradients (PFGs) and selective excitation using shaped pulses.
VERSIONS
The most simple way to convert the classical 2D ROESY pulse sequence to a gradient-based F1-semi-selective 2D ROESY pulse sequence is replacing the initial 90º 1H pulse by a SPFGE ( 95MRC570 and 96JMRB124-110 ) or DPFGE ( 98JMR154-132 ) scheme. The SPFGE block can be prefered because minimizes sensitivity losses due short transverse relaxation times without to sacrify selectivity.

Band-selective excitation of the F2 dimension can be equally performed by inserting a second SPFGE block after the ROESY mixing time. Both band-selective excitation schemes can be combined in a same experiment. However, in modern spectrometers equipped with digital filters, automatic selection on the F2 dimension could be accomplished without the need to include the second SPFGE block. It is important to choose a shaped selective pulse giving excelent selective inversion profile as, for instance, a RE-BURP sequence.

EXPERIMENTAL DETAILS
The experiment is acquired an processed using the same experimental conditions as described for its phase cycle counterpart. The only difference is the presence of gradients. Thus, the user needs to define the strength, duration, shape of the gradients and the recovery delay. If PFGs are not used for coherence selection, clean phase-sensitive spectra can be obtained using a eigth-step phase cycle without sensitivity losses. The inversion profile of the selected SPFGE scheme migth be checked on the same sample.
  • Tutorials: 2D homonuclear experiments
  • Tutorials: 2D gradient-based homonuclear experiments
  • Tutorials: 2D gradient-based homonuclear experiments in H2O
  • SPECTRA
    Data is  analyzed as in a conventional 2D ROESY experiment.
    RELATED TOPICS
    Related experiments:
  • 2D homonuclear experiments
  • 2D gradient-based homonuclear experiments