Quantitative analysis of trap states through the behavior of the sulfur ions in MoS₂ FETs following high vacuum annealing

Engineering & Materials Science

• Field effect transistors 98%
• Annealing 91%
• Sulfur 89%
• Ions 84%
• Vacuum 81%
• Chemical analysis 59%
• Energy gap 52%
• Auger electron spectroscopy 36%
• DOS 31%
• Surface potential 31%
• Molybdenum 26%
• Optoelectronic devices 26%
• Hysteresis 21%
• Semiconductor materials 20%
• Stabilization 19%
• Defects 15%
• Electric potential 11%

Physics & Astronomy

• high vacuum 100%
• quantitative analysis 92%
• sulfur 88%
• field effect transistors 72%
• traps 68%
• annealing 55%
• ions 43%
• molybdenum disulfides 29%
• Auger spectroscopy 22%
• optoelectronic devices 22%
• electron spectroscopy 22%
• stabilization 19%
• methodology 18%
• hysteresis 17%
• engineering 17%
• defects 12%
• electric potential 12%
• electronics 11%
• performance 10%

Chemical Compounds

• Vacuum 73%
• Annealing 72%
• Trap Density Measurement 46%
• Band Gap 46%
• Molybdenum Disulfide 37%
• Ion 36%
• Auger Electron Spectroscopy 34%
• Surface Potential 33%
• Density of State 33%
• Hysteresis 30%
• Optoelectronics 27%
• Semiconductor 23%
• Liquid Film 14%