• Title/Summary/Keyword: Nanotexturing

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Nanopyramid Formation by Ag Metal-Assisted Chemical Etching for Nanotextured Si Solar Cells

  • Parida, Bhaskar;Choi, Jaeho;Palei, Srikanta;Kim, Keunjoo;Kwak, Seung Jong
    • Transactions on Electrical and Electronic Materials
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    • v.16 no.4
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    • pp.206-211
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    • 2015
  • We investigated the formation of a nanopyramidal structure and fabricated nanotextured Si solar cells using an Ag metal-assisted chemical etching process. The nanopyramidal structure was formed on a Si flat surface and the nanotexturing process was performed on the p-type microtextured Si surface. The nanostructural formation shows a transition from nanopits and nanopores to nanowires with etching time. The nanotextured surfaces also showed the photoluminescence spectra with an enhanced intensity in the wavelength range of 1,100~1,250 nm. The photoreflectance of the nanotextured Si solar cells was strongly reduced in the wavelength range of 337~596 nm. However, the quantum efficiency is decreased in the nanotextured samples due to the increased nanosurface recombination. The nanotexturing process provides a better p-n junction impedance of the nanotextured cells, resulting in an enhanced shunt resistance and fill factor which in turn renders the possibility of the increased conversion efficiency.

Nanotexturing and Post-Etching for Diamond Wire Sawn Multicrystalline Silicon Solar Cell (다이아몬드 와이어에 의해 절단된 다결정 실리콘 태양전지의 나노텍스쳐링 및 후속 식각 연구)

  • Kim, Myeong-Hyun;Song, Jae-Won;Nam, Yoon-Ho;Kim, Dong-Hyung;Yu, Si-Young;Moon, Hwan-Gyun;Yoo, Bong-Young;Lee, Jung-Ho
    • Journal of the Korean institute of surface engineering
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    • v.49 no.3
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    • pp.301-306
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    • 2016
  • The effects of nanotexturing and post-etching on the reflection and quantum efficiency properties of diamond wire sawn (DWS) multicrystalline silicon (mc-Si) solar cell have been investigated. The chemical solutions, which are acidic etching solution (HF-$HNO_3$), metal assisted chemical etching (MAC etch) solutions ($AgNO_3$-HF-DI, HF-$H_2O_2$-DI) and post-etching solution (diluted KOH at $80^{\circ}C$), were used for micro- and nano-texturing at the surface of diamond wire sawn (DWS) mc-Si wafer. Experiments were performed with various post-etching time conditions in order to determine the optimized etching condition for solar cell. The reflectance of mc-Si wafer texturing with acidic etching solution showed a very high reflectance value of about 30% (w/o anti-reflection coating), which indicates the insufficient light absorption for solar cell. The formation of nano-texture on the surface of mc-Si contributed to the enhancement of light absorption. Also, post-etching time condition of 240 s was found adequate to the nano-texturing of mc-Si due to its high external quantum efficiency of about 30% at short wavelengths and high short circuit current density ($J_{sc}$) of $35.4mA/cm^2$.

Surface Engineering of GaN Photoelectrode by NH3 Treatment for Solar Water Oxidation

  • Soon Hyung Kang;Jun-Seok Ha
    • Journal of Electrochemical Science and Technology
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    • v.14 no.4
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    • pp.388-396
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    • 2023
  • Photoelectrochemical (PEC) water splitting is a vital source of clean and sustainable hydrogen energy. Moreover, the large-scale H2 production is currently necessary, while long-term stability and high PEC activity still remain important issues. In this study, a GaN-based photoelectrode was modified by an additional NH3 treatment (900℃ for 10 min) and its PEC behavior was monitored. The bare GaN exhibited a highly crystalline wurtzite structure with the (002) plane and the optical bandgap was approximately 3.2 eV. In comparison, the NH3-treated GaN film exhibited slightly reduced crystallinity and a small improvement in light absorption, resulting from the lattice stress or cracks induced by the excessive N supply. The minor surface nanotexturing created more surface area, providing electroactive reacting sites. From the surface XPS analysis, the formation of an N-Ga-O phase on the surface region of the GaN film was confirmed, which suppressed the charge recombination process and the positive shift of EFB. Therefore, these effects boosted the PEC activity of the NH3-treated GaN film, with J values of approximately 0.35 and 0.78 mA·cm-2 at 0.0 and 1.23 VRHE, respectively, and an onset potential (Von) of -0.24 VRHE. In addition, there was an approximate 50% improvement in the J value within the highly applied potential region with a positive shift of Von. This result could be explained by the increased nanotexturing on the surface structure, the newly formed defect/trap states correlated to the positive Von shift, and the formation of a GaOxN1-x phase, which partially blocked the charge recombination reaction.

Low reflectance of sub-texturing for monocrystalline Si solar cell

  • Chang, Hyo-Sik;Jung, Hyun-Chul;Kim, Hyoung-Tae
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2010.06a
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    • pp.249-249
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    • 2010
  • We investigated novel surface treatment and its impact on silicon photovoltaic cells. Using 2-step etching methods, we have changed the nanostructure on pyramid surface so that less light is reflected. This work proposes an improved texturing technique of mono crystalline silicon surface for solar cells with sub-nanotexturing process. The nanotextured silicon surface exhibits a lower average reflectivity (~4%) in the wavelength range of 300-1100nm without antireflection coating layer. It is worth mentioning that the surface of pyramids may also affect the surface reflectance and carrier lifetime. In one word, we believe nanotextruing is a promising guide for texturization of monocrystalline silicon surface.

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Nanotextured Si Solar Cells on Microtextured Pyramidal Surfaces by Silver-assisted Chemical Etching Process

  • Parida, Bhaskar;Choi, Jaeho;Palei, Srikanta;Kim, Keunjoo;Kwak, Seung Jong
    • Transactions on Electrical and Electronic Materials
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    • v.16 no.4
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    • pp.212-220
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    • 2015
  • We investigated nanotextured Si solar cells using the silver-assisted chemical etching process. The nanotexturing process is very sensitive to the concentration of chemical etching solution. The high concentration process results in a nanowire formation for the nanosurfaces and causes severe surface damage to the top region of the micropyramids. These nanowires show excellent light absorption in photoreflectance spectra and radiative light emission in photoluminescence spectra. However, the low concentration process forms a nano-roughened surface and provides high minority carrier lifetimes. The nano-roughened surfaces of the samples show the improved electrical cell properties of quantum efficiency, conversion efficiency, and cell fill factor due to the reduction in the formation of the over-doped dead layer.