| DNP in Materials Science: Touching the Surface |
10 |
| Polarizing Agents: Evolution and Outlook in Free Radical Development for DNP |
6 |
| Pulsed Dynamic Nuclear Polarization |
5 |
| MAS-DNP Enhancements: Hyperpolarization, Depolarization, and Absolute Sensitivity |
5 |
| Paramagnetic Metal Ions for Dynamic Nuclear Polarization |
5 |
| Millimeter-wave Sources for DNP-NMR |
5 |
| Growing Signals from the Noise: Challenging Nuclei in Materials DNP |
4 |
| Peripheral Nerve Stimulation Modeling for MRI |
3 |
| Compressed Sampling in NMR Spectroscopy |
3 |
| DNP and Cellular Solid-state NMR |
3 |
| Overhauser DNP in Liquids on C-13 Nuclei |
2 |
| Local SAR Assessment for Multitransmit Systems: A Study on the Peak Local SAR Value as a Function of Magnetic Field Strength |
2 |
| Liquid-state Overhauser DNP at High Magnetic Fields |
2 |
| Cryogenic Platforms and Optimized DNP Sensitivity |
2 |
| Versatile Dynamic Nuclear Polarization Hardware with Integrated Electron Paramagnetic Resonance Capabilities |
2 |
| NMR-based Computer-assisted Structure Elucidation (CASE) of Small Organic Molecules in Solution: Recent Advances |
2 |
| Nuclear Spin Optical Rotation |
2 |
| History, Physics, and Design of Superconducting Magnets for MRI |
1 |
| High Pressure Aqueous Geochemical NMR |
1 |
| Instrumentation for High-field Dynamic Nuclear Polarization NMR Spectroscopy |
1 |
| Calculating Nuclear Magnetic Resonance Chemical Shifts from Density Functional Theory: A Primer |
1 |
| Use and Safety of Iron Oxide Nanoparticles in MRI and MFH |
1 |
| DNP Mechanisms |
1 |
| Effect of Strong Time-varying Magnetic Field Gradients on Humans |
1 |
| DNP Solid-state NMR of Biological Membranes |
1 |
| In Vivo Hyperpolarized C-13 MRS and MRI Applications |
1 |
| Dissolution Dynamic Nuclear Polarization Methodology and Instrumentation |
0 |
| Cryo-trapped Intermediates of Retinal Proteins Studied by DNP-enhanced MAS NMR Spectroscopy |
0 |
| MR Thermometry to Assess Heating Induced by RF Coils Used in MRI |
0 |
| Temperature Management and Radiofrequency Heating During Pediatric MRI Scans |
0 |
| Modeling Blood Flow |
0 |
| On Using Magnetic Resonance Thermometry to Measure 'Strong' Spatio-temporal Tissue Temperature Variations and Compute Thermal Dose |
0 |
| Magnetic-field-induced Vertigo in the MR Environment |
0 |
| Magnet Field Shimming and External Ferromagnetic Influences on the Homogeneity and Site Shielding of Superconducting MRI Magnets |
0 |
| Fabrication of Superconducting Magnets for MRI |
0 |
| RF Safety of Active Implantable Medical Devices |
0 |
| High-pressure NMR of Biological Systems in Solution |
0 |
| Failure to Monitor and Maintain Thermal Comfort During an MRI Scan: A Perspective from a Thermal Physiologist Turned Patient |
0 |
| RF-Induced Heating in Bare and Covered Stainless Steel Rods: Effect of Length, Covering, and Diameter |
0 |
| Effects of Magnetic Fields and Field Gradients on Living Cells |
0 |
| Triply Compensated RF Pulses in High-Resolution NMR Spectroscopy |
0 |
| Principles of Nano- and Microscale NMR-Spectroscopy with NV-Diamond Sensors |
0 |
| In Vivo Radiofrequency Heating due 1. 3 and 7 T Whole-body Volume Coils |
0 |
| Potential and Application of Magnetic Resonance Imaging and Relaxometry in Environmental Research |
0 |
| Static and Low-frequency Magnetic Fields and Their Effects in MRIs |
0 |
