Spatially-resolved 1H NMR relaxation-exchange measurements in heterogeneous media

Camilla Terenzi, Andrew J. Sederman, Michael D. Mantle*, Lynn F. Gladden

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

6 Citations (Scopus)

Abstract

In the last decades, the 1H NMR T2 -T2 relaxation-exchange (REXSY) technique has become an essential tool for the molecular investigation of simple and complex fluids in heterogeneous porous solids and soft matter, where the mixing-time-evolution of cross-correlated T2 -T2 peaks enables a quantitative study of diffusive exchange kinetics in multi-component systems. Here, we present a spatially-resolved implementation of the T2 -T2 correlation technique, named z-T2 -T2 , based on one-dimensional spatial mapping along z using a rapid frequency-encode imaging scheme. Compared to other phase-encoding methods, the adopted MRI technique has two distinct advantages: (i) is has the same experimental duration of a standard (bulk) T2 -T2 measurement, and (ii) it provides a high spatial resolution. The proposed z-T2 -T2 method is first validated against bulk T2 -T2 measurements on homogeneous phantom consisting of cyclohexane uniformly imbibed in finely-sized α-Al2O3 particles at a spatial resolution of 0.47 mm; thereafter, its performance is demonstrated, on a layered bed of multi-sized α-Al2O3 particles, for revealing spatially-dependent molecular exchange kinetics properties of intra- and inter-particle cyclohexane as a function of particle size. It is found that localised z-T2 -T2 spectra provide well resolved cross peaks whilst such resolution is lost in standard bulk T2 -T2 data. Future prospective applications of the method lie, in particular, in the local characterisation of mass transport phenomena in multi-component porous media, such as rock cores and heterogeneous catalysts.

Original languageEnglish
Pages (from-to)101-108
Number of pages8
JournalJournal of Magnetic Resonance
Volume299
DOIs
Publication statusPublished - Feb 2019
Externally publishedYes

Keywords

  • 2D T -T relaxometry
  • Mass transport
  • Molecular exchange
  • Porous media
  • Relaxation-exchange
  • REXSY
  • Spatially-resolved NMR

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