Magnetic resonance in porous media: Recent progress

Song, Yi‐Qiao; Cho, H.; Hopper, Tim; Pomerantz, Andrew E.; Sun, Phillip Zhe

doi:10.1063/1.2833581

Cited by 69 publications

(44 citation statements)

References 110 publications

(109 reference statements)

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“…Techniques often used such as diffusion tensor imaging 9 can characterize the anisotropy present when pores are coherently placed within the specimen, 10 while multiple diffusion time experiments can, to a certain extent, characterize the tortuosity and surface to volume ratio 5,11,12 and fractal dimensions 13 of the specimen. Other diffusionbased methods exist to quantify flow phenomena, [14][15][16][17] the internal magnetic field of the samples, [18][19][20] and to a certain extent, exchange properties 21,22 of the porous media.…”

Section: Introductionmentioning

confidence: 99%

Detecting diffusion-diffraction patterns in size distribution phantoms using double-pulsed field gradient NMR: Theory and experiments

Shemesh

Özarslan

Basser

et al. 2010

The Journal of Chemical Physics

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NMR observable nuclei undergoing restricted diffusion within confining pores are important reporters for microstructural features of porous media including, inter-alia, biological tissues, emulsions and rocks. Diffusion NMR, and especially the single-pulsed field gradient ͑s-PFG͒ methodology, is one of the most important noninvasive tools for studying such opaque samples, enabling extraction of important microstructural information from diffusion-diffraction phenomena. However, when the pores are not monodisperse and are characterized by a size distribution, the diffusion-diffraction patterns disappear from the signal decay, and the relevant microstructural information is mostly lost. A recent theoretical study predicted that the diffusion-diffraction patterns in double-PFG ͑d-PFG͒ experiments have unique characteristics, such as zero-crossings, that make them more robust with respect to size distributions. In this study, we theoretically compared the signal decay arising from diffusion in isolated cylindrical pores characterized by lognormal size distributions in both s-PFG and d-PFG methodologies using a recently presented general framework for treating diffusion in NMR experiments. We showed the gradual loss of diffusion-diffraction patterns in broadening size distributions in s-PFG and the robustness of the zero-crossings in d-PFG even for very large standard deviations of the size distribution. We then performed s-PFG and d-PFG experiments on well-controlled size distribution phantoms in which the ground-truth is well-known a priori. We showed that the microstructural information, as manifested in the diffusion-diffraction patterns, is lost in the s-PFG experiments, whereas in d-PFG experiments the zero-crossings of the signal persist from which relevant microstructural information can be extracted. This study provides a proof of concept that d-PFG may be useful in obtaining important microstructural features in samples characterized by size distributions.

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Section: Introductionmentioning

confidence: 99%

Detecting diffusion-diffraction patterns in size distribution phantoms using double-pulsed field gradient NMR: Theory and experiments

Shemesh

Özarslan

Basser

et al. 2010

The Journal of Chemical Physics

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“…The expressions investigated above all produce similar results for the RDC strength and radiation effects thereof in PDMS-based materials. These close-formed expressions, particularly that based on the use of the second moment approximation, portend simple extraction of parameters without the use of regularization techniques or numerical inverse Laplace transformations (Song et al, 2008). Coupling these results with those established previously provides a simple yet powerful way for determining and imaging (Mayer et al, 2007) subtle, spatially heterogenous changes in soft materials due to the wide range of harsh chemical, physical, mechanical, and radiological environments that ultimately limit useful device lifetimes through irreversible changes in constituent components.…”

Section: Resultsmentioning

confidence: 99%

Modeling 1H NMR transverse magnetization decay in polysiloxane-silica composites

Mayer

Chinn

Maxwell

et al. 2009

Chemical Engineering Science

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“…[49,50] In SGSTE, the attenuation of the spin echo signal, which results from the dephasing of nuclear spins, is used to measure molecular displacement. The normalized signal attenuation is affected by both longitudinal and transverse relaxation processes and by translational motion of spins and is given by the following equation: [51] ln…”

Section: Nmr Data Processingmentioning

confidence: 99%

Unilateral NMR investigation of multifunctional treatments on stones based on colloidal inorganic and organic nanoparticles

Tullio

Cocca

Avolio

et al. 2014

Magnetic Reson in Chemistry

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Consolidation and protection are among the most important treatments usually carried out in conservation of stone artifacts and monuments. In this paper, portable unilateral NMR and conventional techniques were used for investigating new multifunctional treatments based on tetraethoxysilane, silica, and polytetrafluoroethylene nanoparticles. The study was carried out on a very complex and heterogeneous porous stone such as tuff. NMR study allowed to obtain detailed information on the penetration depth of treatments, the hydrophobic effect, and changes in the open porosity caused by treatments. Physical and chemical inhomogeneities between the impregnated layers of tuff and the layers underneath were also detected. The average pores radius and pores interconnection obtained from NMR diffusion measurements were used for the first time to compare effects of different consolidating and/or protective treatments on stone. Because unilateral NMR technique is neither destructive nor invasive, investigation of treatments can be also carried out and optimized directly on buildings and monuments of interest for Cultural Heritage.

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Magnetic resonance in porous media: Recent progress

Cited by 69 publications

References 110 publications

Detecting diffusion-diffraction patterns in size distribution phantoms using double-pulsed field gradient NMR: Theory and experiments

Detecting diffusion-diffraction patterns in size distribution phantoms using double-pulsed field gradient NMR: Theory and experiments

Modeling 1H NMR transverse magnetization decay in polysiloxane-silica composites

Unilateral NMR investigation of multifunctional treatments on stones based on colloidal inorganic and organic nanoparticles

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