Relaxation (NMR)
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- The Nuclear Overhauser Effect in NMR Structure and Dynamics Analysis
- 13C Nuclear Magnetic Relaxation of Poly(O-Glutamic Acid)
- Introduction to NMR Relaxation
- A Review on Nuclear Overhauser Enhancement (NOE) and Rotating-Frame Overhauser Effect (ROE) NMR Techniques in Food Science: Basic Principles and Applications
- The Role of Diffusion in NMR Proton Relaxation Enhancement by Ferritin
- Nuclear Overhauser Effect (NOE)
- Introduction to Solution NMR
- Proton NMR Relaxation Times of Human Blood Samples at 1.5 T and Implications for Functional MRI
- Chapter 8: Relaxation
- Nuclear Magnetic Resonance and the Measurement of Relaxation Times of Acetone with Gadolinium
- Spin T Relaxation Time Measurements in Breast Cell Cultures at 1.5 Tesla
- Relaxation Therapy and Mindfulness Meditation One-Day Workshop for Nephrology Social Workers: Exploring the Impact of This Training on Professional Practice PART ONE
- Nuclear Overhauser Effect and Cross-Relaxation Rate Determinations Distances in the Decapeptide Tyrocidinea
- Lecture #5 Relaxation Through Dipolar Coupling
- Study of Spin-Lattice and Spin-Spin Relaxation Times of 1H, 2H, and 17O
- Common Kidney Disease Symptoms and Management Options Fact Sheet
- Theory and Applications of the Transferred Nuclear Overhauser Effect to the Study of the Conformations of Small Ligands Bound to Proteins
- 31P Nuclear Magnetic Relaxation Studies Ofphosphocreatine