Phase stability of the earth-abundant tin sulfides SnS, SnS₂, and Sn₂S₃

Engineering & Materials Science

• Phase stability 100%
• Tin 81%
• Sulfides 80%
• Enthalpy 71%
• Earth (planet) 58%
• Ground state 52%
• Lattice constants 51%
• Diffraction patterns 49%
• Molecular dynamics 39%
• X ray diffraction 34%
• Thin films 32%
• Semiconductor materials 30%
• Degradation 24%
• Geometry 21%
• Computer simulation 19%
• Experiments 12%

Chemical Compounds

• Phase Stability 84%
• Enthalpy of Formation 66%
• Sulfide 55%
• Lattice Parameter 33%
• Ground State 27%
• Semiconductor 26%
• Molecular Dynamics 25%
• Amorphous Material 24%
• Simulation 21%
• Pressure 20%
• Environment 19%
• X-Ray Diffraction 17%
• Energy 16%

Physics & Astronomy

• zincblende 86%
• sulfides 73%
• tin 65%
• enthalpy 41%
• isolation 22%
• lattice parameters 20%
• diffraction patterns 19%
• degradation 17%
• molecular dynamics 16%
• ground state 15%
• geometry 13%
• thin films 11%
• x rays 10%
• simulation 8%
• energy 6%