Tungsten nanowire based hyperbolic metamaterial emitters for near-field thermophotovoltaic applications

Engineering & Materials Science

• Nanowires 100%
• Metamaterials 95%
• Tungsten 87%
• Vacuum 53%
• Energy conversion 40%
• Heat transfer 26%
• Electrodynamics 26%
• Photonics 23%
• Energy gap 22%
• Conversion efficiency 21%
• Optics 20%
• Cells 19%
• Aluminum oxide 19%
• Thin films 19%
• Polarization 18%
• Poles 17%
• Power generation 17%

Physics & Astronomy

• near fields 68%
• tungsten 68%
• emitters 67%
• nanowires 64%
• radiative heat transfer 40%
• energy conversion 35%
• vacuum 30%
• plains 18%
• electrodynamics 16%
• poles 14%
• optics 11%
• photonics 11%
• augmentation 9%
• output 9%
• energy 9%
• polarization 8%
• thin films 8%
• performance 7%

Chemical Compounds

• Radiative Heat Transfer 76%
• Tungsten 74%
• Nanowire 69%
• Vacuum 48%
• Electrodynamics 30%
• Application 25%
• Density of State 21%
• Energy 19%
• Reflection 16%
• Polarization 15%
• Time 7%