Zobrazeno 1 - 10
of 784
pro vyhledávání: '"Kuchel, Philip"'
Autor:
Regan, David G., Momot, Konstantin I., Martens, Penny J., Kuchel, Philip W., Poole-Warren, Laura
Publikováno v:
Diffusion fundamentals. 4(1):1-18
Hydrogels are biocompatible polymeric materials that are becoming increasingly important in biomedical applications, such as drug delivery and tissue engineering. Understanding of small-molecule diffusion in these systems is important in the contexts
Autor:
Chapman, Bogdan E., Kuchel, Philip W.
Publikováno v:
Diffusion fundamentals. 4(8):1-15
Nuclear magnetic resonance (NMR) spectroscopy was used to study exchange of three distinctly different molecules across the membranes of human red blood cells (RBCs). In studying water, t-butanol, and dimethyl sulfoxide we exploited the marked differ
Autor:
Kuchel, Philip W., Sahade, Marcel V.
Publikováno v:
Diffusion fundamentals. 6(84):1-9
We present a comparison of two forms of analysis applied to a simple experiment in electrodynamics. One uses contemporary physics and the other metaphysics as espoused by the 13th century scholar Thomas Aquinas. The aim is to illustrate an example of
Autor:
Kuchel, Philip W., Pages, Guilhem
Publikováno v:
Diffusion fundamentals. 6(74):1-16
Pulsed field gradient spin-echo (PGSE) NMR spectroscopy is the definitive means for measuring translational motion of molecules in free solution and in heterogeneous systems. A unique ‘twist’ on the method is that in some systems in which diffusi
Autor:
Pages, Guilhem, Kuchel, Philip W.
Publikováno v:
Diffusion fundamentals. 6(3):1-17
The time taken to complete an NMR diffusion experiment is typically ~10 minutes. For systems that rapidly evolve conventional pulsed field gradient spin-echo (PGSE) experiments cannot be used to obtain reliable estimates of molecular mobility. Modern
Autor:
Pages, Guilhem, Kuchel, Philip W.
Publikováno v:
Diffusion fundamentals. 7(9):1-4
Publikováno v:
Diffusion fundamentals. 11(67):1-12
The rapid-acquisition of q-space data from 1H2O undergoing restricted diffusion in suspensions of red blood cells (RBCs) is made possible using a recently implemented pulse sequence, where the phase cycling of the radio-frequency pulses is reduced by
Publikováno v:
Diffusion fundamentals. 2(75):1-2
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