NMR Imaging in Chemical EngineeringISBN: 978-3-527-31234-4
Hardcover
646 pages
February 2006
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Siegfried Stapf received his PhD in Physics at the University of Ulm, Germany, in 1996. Following a postdoctoral stay at the University of Nottingham, UK, he currently holds a position as Hochschuldozent at the RWTH Aachen, Germany. His main research interests cover the fields of molecular dynamics and order of confined fluids and soft matter, as well as transport phenomena and structure/dynamics relations in complex media investigated with advanced Nuclear Magnetic Resonance Imaging techniques.
Song-I Han received her Doctoral Degree in Natural Sciences (Dr.rer.nat) from Aachen University of Technology, Germany, in 2001. She was awarded with the first Raymond Andrew Prize of the Ampere Society for an outstanding PhD thesis in magnetic resonance imaging. She pursued her postdoctoral studies at the University of California, Berkeley under the sponsorship of the Feodor Lynen Fellowship of the Alexander von Humboldt Foundation. Dr. Han joined as an Assistant Professor the Department of Chemistry and Biochemistry at the University of California, Santa Barbara in 2004. Her research expertise lies in magnetic resonance flow imaging methodologies and her research objectives are technique developments for orders of magnitude faster and more sensitive NMR spectroscopy and imaging.
Song-I Han received her Doctoral Degree in Natural Sciences (Dr.rer.nat) from Aachen University of Technology, Germany, in 2001. She was awarded with the first Raymond Andrew Prize of the Ampere Society for an outstanding PhD thesis in magnetic resonance imaging. She pursued her postdoctoral studies at the University of California, Berkeley under the sponsorship of the Feodor Lynen Fellowship of the Alexander von Humboldt Foundation. Dr. Han joined as an Assistant Professor the Department of Chemistry and Biochemistry at the University of California, Santa Barbara in 2004. Her research expertise lies in magnetic resonance flow imaging methodologies and her research objectives are technique developments for orders of magnitude faster and more sensitive NMR spectroscopy and imaging.