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Microimaging

X. Zhang, A. G. Webb 2005, (Magnetic resonance microimaging and numerical simulations of velocity fields inside flowcells for coupled NMR microseparations), Anal. Chem., 77, 1338. [Pg.138]

I. V. Koptyug, S.A. Altobelli, E. Fu-kushima, A.V. Matveev, R.Z. Sagdeev 2000, (Thermally polarized H NMR microimaging studies of liquid and gas flow in monolithic catalysts), J. Magn. Reson. 147, 36. [Pg.284]

A non-invasive measurement of phloem and xylem water flow in castor bean seedlings by nuclear magnetic resonance microimaging), Planta 201, 53-63. [Pg.416]

Most NMR studies of potato have focused on understanding the effects of processes such as boiling, frying, freezing and drying. Exceptions are the NMR microimaging of healthy and diseased potato tubers reported by Goodman and co-workers, and relaxometry responses in healthy tubers... [Pg.101]

Moudrakovski, I.L. McLaurin, G.E. Ratcliffe, C.I. Ripmeester, J.A. (2004). Methane and Carbon Dioxide Hydrate Formation in Water Droplets Spatially Resolved Measurements from Magnetic Resonance Microimaging. J. Phys. Chem. B, 108, 17591-17595. [Pg.51]

E. Cherin, R. Williams, A. Needles, G.W. Liu, C. White, A.S. Brown, Y.Q. Zhou, F.S. Foster, Ultrahigh frame rate retrospective ultrasound microimaging and blood flow visualization in mice in vivo. Ultrasound Med. Biol. 32 (2006) 683-691. [Pg.256]

Microresist 700 Series Waycoat HNR HR Series Selectilux N OMR Series ON NR Series Isopoly Negative Resists Eastman Kodak Phillip A. Hunt E. M. Chemicals Dynachem (Tokyo Ohka) Tokyo Ohka Microimage Technology... [Pg.55]

Microimaging studies of single catalyst pellets. In these investigations, spatial resolutions of. 30 50 pm are typically achieved, and steady- and unsteady-state... [Pg.2]

A number of recent developments in 129Xe NMR spectroscopy are presented with direct applications to the study of mesopore space in solids. This includes the establishment of a relationship between pore size and chemical shifts for a number of controlled pore glasses and the exploration of hyperpolarized (HP) xenon for a number of NMR and microimaging applications to porous solids. With HP xenon, the increase in experimental sensitivity is remarkable. Experiments illustrated include the rapid characterization of the void space in porous solids, including the in-situ study of processes such as diffusion and dehydration, and imaging with chemical shift resolution. [Pg.491]

Magnetic Resonance Microimaging Studies of Porous Petroleum Coke... [Pg.509]

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See also in sourсe #XX -- [ Pg.491 ]

See also in sourсe #XX -- [ Pg.18 , Pg.163 , Pg.165 ]

See also in sourсe #XX -- [ Pg.552 ]

See also in sourсe #XX -- [ Pg.5 ]



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Acoustic microimaging

NMR microimaging

Nuclear magnetic resonance microimaging

Raman Microimaging

X-ray microimaging

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