Performance enhancement of pc-Si solar cells through combination of anti-reflection and light-trapping: Functions of AAO nano-grating

“…The experimental realization of such systems where NAA thin films act as lighttrapping and anti-reflection layers also showed an increase in the short-circuit current density and in the PCE, although at a lower level than that previously predicted by simulations. [164] This improvement was found to be dependent on the NAA lattice period, thickness, and nanopore diameter, where further developments were foreseen by the authors. Enhanced light absorption was also observed for integrated systems based on nanoparticles-infiltrated NAA.…”

“…Their results show that NAA films can effectively passivate p ‐type silicon wafers to a level similar to PECVD or ALD thin film stacks, reaching interface state and fixed charge densities of 1 × 10 10 cm −2 eV −1 and 2 × 10 11 cm −2 , respectively. Qin et al [ 162,163 ] and Wu et al [ 164 ] have investigated the integration of NAA structures into Si solar cells for enhanced light absorption. Preliminary simulation results [ 162,163 ] showed a potential increase of ≈23% in light absorption in the wavelength range 280–1100 nm when using NAA as a light trapping layer, whereas the solar cell's short‐circuit current density was found to increase up to 131% when a double trap NAA system is used.…”

Nanoporous Anodic Alumina Photonic Crystals for Sunlight Harvesting Applications: A Perspective

“…The experimental realization of such systems where NAA thin films act as lighttrapping and anti-reflection layers also showed an increase in the short-circuit current density and in the PCE, although at a lower level than that previously predicted by simulations. [164] This improvement was found to be dependent on the NAA lattice period, thickness, and nanopore diameter, where further developments were foreseen by the authors. Enhanced light absorption was also observed for integrated systems based on nanoparticles-infiltrated NAA.…”

“…Their results show that NAA films can effectively passivate p ‐type silicon wafers to a level similar to PECVD or ALD thin film stacks, reaching interface state and fixed charge densities of 1 × 10 10 cm −2 eV −1 and 2 × 10 11 cm −2 , respectively. Qin et al [ 162,163 ] and Wu et al [ 164 ] have investigated the integration of NAA structures into Si solar cells for enhanced light absorption. Preliminary simulation results [ 162,163 ] showed a potential increase of ≈23% in light absorption in the wavelength range 280–1100 nm when using NAA as a light trapping layer, whereas the solar cell's short‐circuit current density was found to increase up to 131% when a double trap NAA system is used.…”

Nanoporous Anodic Alumina Photonic Crystals for Sunlight Harvesting Applications: A Perspective

“…They can be used as membranes, 1 templates for the preparation of nanowires 2 and nanotubes, 3 catalyst carriers, 4 substrates for gas sensors, 5 biosensors, 6 alternative energy sources, 7 and accumulators. 8 Special attention should be paid to the optical applications of AAO films, such as photonic crystals, 9,10 filters with a voltagecontrolled wavelength, 11 an additional layer to increase the efficiency of the solar panels, 12 a part of the light source, 13 and templates for metamaterials based on ordered arrays of metal nanorods. 14 Fig.…”

Birefringence in anodic aluminum oxide: an optical method for measuring porosity

“…The solar-selective absorbing coating films should have efficient solar photothermal conversion and thus must have high solar absorptivity and low thermal emissivity, especially at high temperatures. (1,2) A spectrally selective surface should capture the maximum solar energy in the high-intensity visible and near-IR spectral regions. Minimizing the primary reflection loss at the front surface of solar thermal layers has always been a key challenge in improving power conversion efficiency.…”

Optical and Thermal Characteristics of Porous Anodic Aluminum Oxide for Photothermal Applications