Molecular motional and structural study of ammoniated titanium disulfide by proton NMR

Engineering & Materials Science

• Protons 94%
• Nuclear magnetic resonance 93%
• Titanium 75%
• Relaxation time 61%
• Activation energy 32%
• Temperature 31%
• Spin-lattice relaxation 30%
• Bond length 23%
• Linewidth 19%
• Positive ions 19%
• Enthalpy 15%
• Molecules 15%
• Geometry 9%

Physics & Astronomy

• disulfides 100%
• titanium 64%
• nuclear magnetic resonance 62%
• relaxation time 61%
• protons 50%
• activation energy 38%
• spin-lattice relaxation 27%
• enthalpy 23%
• cations 21%
• temperature dependence 16%
• temperature 15%
• geometry 14%
• molecules 13%

Chemical Compounds

• Disulfide 64%
• Proton 51%
• Reaction Activation Energy 36%
• Diffusion 32%
• Spin-Lattice Relaxation 30%
• NMR Signal 29%
• Time 28%
• Bond Length 22%
• Enthalpy 20%
• Cation 15%
• Molecule 9%