¹¹B nuclear magnetic resonance study of boron nitride nanotubes prepared by mechano-thermal method

Keyphrases

• Nuclear Magnetic Resonance 100%
• Magnetic Resonance Techniques 100%
• Thermal Methods 100%
• Boron Nitride Nanotubes 100%
• Mechano-thermal 100%
• Magnetization Relaxation 33%
• Metal Catalyst 33%
• Temperature Effect 33%
• Spin-lattice Relaxation 33%
• Thermal Annealing 33%
• Electron Paramagnetic Resonance 33%
• X-ray Powder Diffraction 33%
• Line Shape 33%
• Gaussian Function 33%
• DSPACE 33%
• Fe-N 33%
• Phonons 33%
• Paramagnetic Ions 33%
• Inhomogeneous Distribution 33%
• Stretched Exponential Function 33%
• Thermal Path 33%
• Nuclear Magnetization 33%
• Boron Powder 33%
• T Temperature 33%
• High-energy Ball Milling 33%

Engineering

• Nuclear Magnetic Resonance 100%
• Nanotube 100%
• Nitride 100%
• Thermal Method 100%
• Temperature Dependence 33%
• X-Ray Powder Diffraction 33%
• Exponential Function 33%
• Gaussian Function 33%
• Space Dimension 33%
• High-Energy Ball Milling 33%
• Magnetization Relaxation 33%

Material Science

• Nanotube 100%
• Nuclear Magnetic Resonance 100%
• Boron Nitride 100%
• Annealing 33%
• X Ray Powder Diffraction 33%
• Boron 33%
• Lineshape 33%