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

Engineering & Materials Science

• Boron nitride 100%
• Nanotubes 90%
• Nuclear magnetic resonance 85%
• Spin-lattice relaxation 46%
• Phonons 37%
• X ray powder diffraction 35%
• Hot Temperature 34%
• Paramagnetic resonance 32%
• Ball milling 31%
• Exponential functions 28%
• Temperature 28%
• Magnetization 28%
• Boron 26%
• Annealing 23%
• Catalysts 20%
• Powders 19%
• Metals 15%

Physics & Astronomy

• boron nitrides 75%
• nanotubes 67%
• nuclear magnetic resonance 56%
• exponential functions 40%
• spin-lattice relaxation 36%
• catalysts 32%
• electron paramagnetic resonance 32%
• balls 32%
• boron 30%
• routes 29%
• phonons 24%
• magnetization 23%
• temperature dependence 22%
• annealing 21%
• temperature 21%
• diffraction 18%
• metals 18%
• x rays 15%
• energy 10%

Chemical Compounds

• Boron Nitride Nanotube 99%
• NMR Spectroscopy 47%
• Spin-Lattice Relaxation 41%
• Phonon 39%
• Ball Milling 36%
• Magnetization 33%
• EPR Spectroscopy 30%
• Boron Atom 30%
• Annealing 27%
• Powder X-Ray Diffraction 26%
• Dimension 26%