Comparison of the growth and thermal properties of nonwoven polymers after atomic layer deposition and vapor phase infiltration

Engineering & Materials Science

• Atomic layer deposition 100%
• Infiltration 76%
• Thermodynamic properties 60%
• Vapors 58%
• Electron microscopes 49%
• Polymers 47%
• Scanning 40%
• Infrared spectroscopy 35%
• Differential scanning calorimetry 29%
• Cellulose 28%
• Aluminum oxide 25%
• Depolymerization 20%
• Lactic acid 17%
• Fibers 17%
• Silicon wafers 15%
• Nuclear magnetic resonance 15%
• Spectroscopy 14%
• Thermoanalysis 13%
• Heat resistance 13%
• Glass 10%
• Heating 9%
• Substrates 9%
• Hot Temperature 6%

Physics & Astronomy

• infiltration 76%
• atomic layer epitaxy 67%
• thermodynamic properties 53%
• vapor phases 52%
• scanning 41%
• polymers 38%
• electron microscopes 34%
• cellulose 24%
• acetates 23%
• infrared spectroscopy 19%
• heat measurement 19%
• resistance heating 17%
• depolymerization 15%
• lactic acid 15%
• reflectance 15%
• fibers 12%
• thermal resistance 11%
• thermal analysis 10%
• nuclear magnetic resonance 8%
• wafers 8%
• glass 6%
• silicon 5%
• spectroscopy 5%

Chemical Compounds

• Atomic Layer Epitaxy 75%
• Electron Particle 35%
• Acetate Fiber 25%
• IR Spectroscopy 22%
• Thermal Resistance 19%
• Depolymerization 18%
• Thermoanalysis 13%
• Acetate 11%
• Glass 11%
• NMR Spectroscopy 10%
• Spectroscopy 10%
• Fiber 10%
• Acid 5%
• Surface 5%