Fabrication and assembly of ultrathin high-efficiency silicon solar microcells integrating electrical passivation and anti-reflection coatings

Keyphrases

• Ultrathin 100%
• High Efficiency 100%
• Solar Microcell 100%
• Electrical Passivation 100%
• Antireflection Coating 100%
• Si Solar Cell 100%
• Glass Substrate 50%
• Si(111) 50%
• Waveguide 50%
• Sidewall 50%
• Wafer 50%
• Device Structure 50%
• Spatial Distribution 50%
• Wet Etching 50%
• Device Level 50%
• Wafer-scale 50%
• Solar Cell Applications 50%
• Doping Profile 50%
• Oxide Layer 50%
• Thermal Oxide 50%
• Microscale Devices 50%
• High Surface Area 50%
• Microcell 50%
• Electrical Energy 50%
• Robust Approach 50%
• Micromachining 50%
• Antireflection Layer 50%
• Optically Thin 50%
• External Quantum Efficiency 50%
• Cell Efficiency 50%
• Reflector 50%
• Module Level 50%
• Interconnected Arrays 50%
• Blue Response 50%
• Concentrator Modules 50%
• PV Conversion 50%
• Solar Cell Devices 50%
• Light Management 50%
• Planarization Layer 50%
• Electrical Bus 50%
• Material Usage 50%
• Ultra-thin Silicon Solar Cells 50%
• Quantum Efficiency Measurement 50%
• Transparent Glass 50%
• Surface Recombination 50%
• Internal Reflection 50%
• Solar Spectrum 50%
• Thermally Grown Oxide Layer 50%
• Precise Method 50%

Engineering

• Microscale 100%
• Passivation 100%
• Oxide Layer 100%
• Solar Cell 100%
• Illustrates 50%
• Side Wall 50%
• Device Structure 50%
• Micro Machining 50%
• High Surface Area 50%
• Electrical Energy 50%
• Bottom Surface 50%
• External Quantum Efficiency 50%
• Planarization 50%
• Internal Reflection 50%
• Solar Spectra 50%
• Thin Silicon Solar Cell 50%
• Blue Response 50%
• Glass Substrate 50%
• Spatial Distribution 50%

Material Science

• Silicon 100%
• Oxide Compound 100%
• Solar Cell 100%
• Antireflection Coating 100%
• Surface (Surface Science) 100%
• Micromachining 50%
• Silicon Solar Cell 50%