Micro and Nano Scale NMR
Technologies and Systems
(Sprache: Englisch)
This must-have book is the first self-contained summary of recent developments in the field of microscale nuclear magnetic resonance hardware, covering the entire technology from miniaturized detectors, the signal processing chain, and detection sequences....
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Klappentext zu „Micro and Nano Scale NMR “
This must-have book is the first self-contained summary of recent developments in the field of microscale nuclear magnetic resonance hardware, covering the entire technology from miniaturized detectors, the signal processing chain, and detection sequences. Chapters cover the latest advances in interventional NMR and implantable NMR sensors, as well as in using CMOS technology to manufacture miniaturized, highly scalable NMR detectors for NMR microscopy and high-throughput arrays of NMR spectroscopy detectors.
Inhaltsverzeichnis zu „Micro and Nano Scale NMR “
MAGNETS FOR SMALL-SCALE AND PORTABLE NMR NMR Magnets for Portable NMR Concept of Inside-out or Single-sided NMR Applications Scenarios: Medicine Material Science WIREBONDED NMR MICROCOILS Wirebond Coils for NMR Spectroscopy and NMR Microscopy Phased Array Microcoils Magic Angle Spinning Inserts Helmholtz coils for Nanoliter NMR Spectroscopy with High Frequency Resolution ALTERNATIVE MICRO-TECHNOLOGIES FOR NMR MICROCOILS Inkjet Printing Technology Coil Decoupling Amplifier Integration WAVEGUIDES FOR MICRO NMR Theory, RF-modeling and Fabrication Techniques Waveguides with Microfluidics Waveguide Probes for Metabolomics Studies CMOS-BASED AND CMOS-ASSISTED MICRO-NMR Electronics for Inductive NMR Detection Single-chip NMR Transceiver with On-chip Coil Arrays for NMR Microscopy Single-chip NMR Transceivers for Large-scale Arrays of External Coils MICROGRADIENT SYSTEMS FOR NMR MICROSCOPY Introduction to Planar Gradient Systems Methods to Compute the Current Distribution Fabrication Techniques EFFICIENT PULSE SEQUENCES FOR NMR MICROSCOPY SNR in NMR Microscopy Problems Related to Diffusion in Fourier Encoded MRI vs. DESIRE Diffusion Tensor Microscopy IMPLANTABLE MR COILS Applications of Implantable MR Coils Fabrication Techniques Biocompatible Encapsulation MR CATHETER TIP COILS Active Tracking of Catheters and Surgical Instruments Overview of the Different Technologies Used to Manufacture Catheter Tip Coils Patient Safety Considerations Imaging Using Catheter Tip Coils BROADBAND MICROCOILS FOR BROADBAND MULTINUCLEI DETECTION Advantages of Direct Multinuclei Detection Hardware Challenges Associated with Multinuclei Probe Heads Decoupling Schemes 1D- And 2D Heteronuclear Experiments MICRO-SCALE DYNAMIC NUCLEAR POLARIZATION Brief Review of the DNP Effect Micro Probes for DNP Enhanced NMR Spectroscopy Challenges Associated With Microwave DNP Sources FORCE DETECTED NMR (MRFM) Brief Review of the Detection Principle and the Hardware Nano-MRI Using MRFM Challenges towards Single
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Nuclear Spin Sensitivity OPTICALLY DETECTED NMR (ODMR) Brief Review of the Detection Principle and the Required Hardware Alkali Vapor Magnetometers for Portable NMR Remote Detection of Nuclear Spins Using Ensembles of Nitrogen-Vacancy Centers for High Resolution Microfluidics Applications NITROGEN VACANCY (NV) CENTERS IN DIAMONDS Brief Review of the Spin Physics of NV Centers Atomic Size Magnetometers Using NV Centers Single Nuclear Spin Detection Using NV Centers in Diamond Chips NV Centers as Nanoscale Sensors for Biological Applications
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Autoren-Porträt
Jens Anders obtained his PhD from the Ecole Polytechnique Federale de Lausanne (EPFL), Switzerland, in 2011. He then joined the Institute of Microelectronics at the University of Ulm, Germany, first as a group leader and since 2013 as assistant professor. Prof. Anders is the recipient of several awards including the E.ON Future Award 2007, the VDE ITG ISS Study Award 2008 and the VDE Outstanding Publication award 2012. His main research interests include electronics for biomedical and materials science applications, mixed-signal circuit design, and the modeling of nonlinear circuits and systems in the absence as well as in the presence of noise. Professor Anders has authored more than 90 scientific publications. Jan Korvink obtained his PhD from the ETH in Zürich, Switzerland, in 1993. In 1997 he moved to the Albert Ludwig University in Freiburg, Germany, where for 18 years he was professor for microsystems engineering. From 2007 to 2013 he was a director of the Freiburg Institute for Advanced Studies. Since April 2015 he is Professor and director of the Institute of Microstructure Technology at the Karlsruhe Institute of Technology. His research interests cover the development of ultra low cost micromanufacturing methods, microsystem applications in the area of magnetic resonance imaging and spectroscopy, and the design and simulation of micro- and nano-systems. He is a recipient of the European Research Council's Advanced Grant for the development of an NMR metabolomic analyser for the nematode C. elegans. He has also been awarded a Red Dot Design Concept Prize in the area of NMR hardware. Professor Korvink has authored more than 300 scientific publications, and was a founding editor of this book series.
Bibliographische Angaben
- 2018, 1. Auflage, XVI, 429 Seiten, 161 farbige Abbildungen, 66 Schwarz-Weiß-Abbildungen, Maße: 18 x 25,1 cm, Gebunden, Englisch
- Herausgegeben: Jens Anders, Jan G. Korvink, Oliver Brand, Gary K. Fedder, Christofer Hierold, Osamu Tabata
- Verlag: Wiley-VCH
- ISBN-10: 3527340564
- ISBN-13: 9783527340569
- Erscheinungsdatum: 26.06.2018
Sprache:
Englisch
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