000080211 001__ 80211
000080211 005__ 20180317093601.0
000080211 0247_ $$2doi$$a10.1021/ja00400a007
000080211 037__ $$aARTICLE
000080211 245__ $$aTwo-dimensional rotational spin-echo nuclear magnetic resonance in solids: correlation of chemical shift and dipolar interactions
000080211 269__ $$a1981
000080211 260__ $$c1981
000080211 336__ $$aJournal Articles
000080211 520__ $$aTwo-dimensional NMR techniques which sep. the chem. shift and heteronuclear dipolar interactions were applied to samples spinning at the magic angle. Because of the inhomogeneous nature of the 2 interactions, rotational echoes were obsd. in the time domain of each dimension. The corresponding Fourier transforms yield rotational sideband spectra which provide information on the principal values and relative orientations of the shift and dipolar tensors, and from the latter, internuclear distances may be calcd. The techniques therefore provide a means for obtaining structural data, for example, 13C-1H and 15N-1H distances, in powder samples. [on SciFinder (R)]
000080211 700__ $$aMunowitz, M. G.
000080211 700__ $$aGriffin, R. G.
000080211 700__ $$0243177$$aBodenhausen, G.$$g122795
000080211 700__ $$aHuang, T. H.
000080211 773__ $$j103$$k10$$q2529-33$$tJournal of the American Chemical Society
000080211 909CO $$ooai:infoscience.tind.io:80211$$particle$$pSB
000080211 909C0 $$0252152$$pLRMB$$xU10098
000080211 937__ $$aLRMB-ARTICLE-1981-005
000080211 970__ $$a63/LRMB
000080211 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000080211 980__ $$aARTICLE