• Title/Summary/Keyword: $SiO_X/SiN_X$ layers

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Effect on the Double Stacked SiNX/SiOX Layers for n-type Bifacial Crystalline Silicon Solar Cells (n형 양면 결정질 실리콘 태양전지의 SiNx/SiOx 이중층 영향에 관한 연구)

  • Hyeong Gi Park;Jinjoo Park;Junsin Yi
    • Current Photovoltaic Research
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    • v.12 no.3
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    • pp.55-60
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    • 2024
  • This study explored the effect of double-stacked SiOX/SiNX layers on the passivation quality of n-type bifacial crystalline Si solar cells. SiOX layers were deposited via PECVD under various conditions on n-type silicon wafers with a boron emitter. These layers were capped with SiNX and thermally treated to optimize the passivation. The optimal conditions resulted in a minority-carrier lifetime of 268 μsec and an implied VOC of 692 mV. The optimized SiOX layer had a low interface defect density and high fixed negative charge. When applied to n-type solar cells, the SiOX/SiNX stack improved the performance, achieving a VOC of 646 mV, JSC of 39.3 mA/cm2, FF of 78.06%, and efficiency of 19.82%, demonstrating the potential for higher efficiency in n-type silicon solar cells.

Enhanced Anti-reflective Effect of SiNx/SiOx/InSnO Multi-layers using Plasma Enhanced Chemical Vapor Deposition System with Hybrid Plasma Source

  • Choi, Min-Jun;Kwon, O Dae;Choi, Sang Dae;Baek, Ju-Yeoul;An, Kyoung-Joon;Chung, Kwun-Bum
    • Applied Science and Convergence Technology
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    • v.25 no.4
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    • pp.73-76
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    • 2016
  • Multi-layer films of $SiN_x/SiO_x$/InSnO with anti-reflective effect were grown by new-concept plasma enhanced chemical vapor deposition system (PECVD) with hybrid plasma source (HPS). Anti-reflective effect of $SiN_x/SiO_x$/InSnO was investigated as a function of ratio of $SiN_x$ and $SiO_x$ thickness. Multi-layers deposited by PECVD with HPS represents the enhancement of anti-reflective effect with high transmittance, comparing to the layers by conventional radio frequency (RF) sputtering system. This change is strongly related to the optical and physical properties of each layer, such as refractive index, composition, film density, and surface roughness depending on the deposition system.

Anti-Reflection Coating Application of SixOy-SixNy Stacked-Layer Fabricated by Reactive Sputtering (반응성 스퍼터링으로 제작된 SixOy-SixNy 적층구조의 반사방지 코팅 응용)

  • Gim, Tzang-Jo;Lee, Boong-Joo;Shina, Paik-Kyun
    • Journal of the Korean Vacuum Society
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    • v.19 no.5
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    • pp.341-346
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    • 2010
  • In this paper, anti-reflection coating was investigated for decreasing the reflection in visible range of 400~650 [nm] through four staked layers of $Si_xO_y$ and $Si_xN_y$ thin films prepared by reactive sputtering method. Si single crystal of 6 [inch] diameter was used as a sputtering target. Ar and $O_2$ gases were used as sputtering gases for reactive sputtering for the $Si_xO_y$ thin film, and Ar and $N_2$ gases were used for reactive sputtering for the $Si_xN_y$ thin film. DC pulse power of 1900 [W] was used for the reactive sputtering. Refractive index and deposition rate were 1.50 and 2.3 [nm/sec] for the $Si_xO_y$, and 1.94 and 1.8 [nm/sec] for the $Si_xN_y$ thin film, respectively. Considering the simulation of the four layer anti-reflection coating structure with the above mentioned films, the $Si_xO_y-Si_xN_y$ stacked four-layer structure was prepared. The reflection measurement result for that structure showed that a "W" shaped anti-reflection was obtained successfully with a reflection of 1.7 [%] at 550 [nm] region and a reflection of 1 [%] at 400~650 [nm] range.

The Effect of Multilayer Passivation Film on Life Time Characteristics of OLED Device (OLED소자의 수명에 미치는 다층 보호막의 영향)

  • Ju, Sung-Hoo;Yang, Jae-Woong
    • Journal of Surface Science and Engineering
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    • v.45 no.1
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    • pp.20-24
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    • 2012
  • Multilayer passivation film on OLED with organic/inorganic hybrid structure as to diminish the thermal stress and expansion was researched to protect device from the direct damage of $O_2$ and $H_2O$ and improve life time characteristics. Red OLED doped with 1 vol.% Rubrene in $Alq_3$ was used as a basic device. The films consist of ITO(150 nm)/ELM200_HIL(50 nm)/ELM002_HTL(30 nm)/$Alq_3$: 1 vol.% Rubrene(30 nm)/$Alq_3$(30 nm) and LiF(0.7 nm)/Al(100 nm) which were formed in that order. Using LiF/$SiN_x$ as a buffer layer was determined because it significantly improved life time characteristics without suffering damage in the process of forming passivation film. Multilayer passivation film on buffer layer didn't produce much change in current efficiency, while the half life time at 1,000 $cd/m^2$ of OLED/LiF/$SiN_x$/E1/$SiN_x$ was 710 hours which showed about 1.5 times longer than OLED/LiF/$SiN_x$/E1 with 498 hours. futhermore, OLED/LiF/$SiN_x$/E1/$SiN_x$/E1/$SiN_x$ with 1301 hours showed about twice than OLED/LiF/$SiN_x$/E1/$SiN_x$ which demonstrated that superior characteristics of life time was obtained in multilayer passivation film. Through the above result, it was suggested using LiF/$SiN_x$ as a buffer layer could reduce the damage from the difference of thermal expansion coefficient in OLED with protective films, and epoxy layer in multilayer passivation film could function like a buffer between $SiN_x$ inorganic layers with relatively large thermal stress.

A Study on Alkali ion-Sensitivity of $Si_{x}O_{y}N_{z}$ Fabricated by Low Pressure Chemical Vapor Deposition (저압화학기상 성장법으로 제작된 $Si_{x}O_{y}N_{z}$의 알칼리이온 감지성에 관한 연구)

  • Shin, P.K.;Lee, D.C.
    • Journal of Sensor Science and Technology
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    • v.6 no.3
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    • pp.200-206
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    • 1997
  • Using $SiCl_{2}H_{2}$, $NH_{3}$ and $N_{2}O$, we have fabricated silicon oxynitride ($Si_{x}O_{y}N_{z}$) layers on thermally oxidized silicon wafer by low pressure chemical vapor deposition. Three different compositions were achieved by controlling gas flow ratios($NH_{3}/N_{2}O$)) to 0.2, 0.5 and 2 with fixed gas flow of $SiCl_{2}H_{2}$. Ellipsometry and high frequency capacitance-voltage(HFCV) measurements were adapted to investigate the difference of the refractive index, dielectric constant, and composition, respectively. Regardless of nitride content, silicon oxynitrides had similar stability to silicon nitrides. The relative standing of alkali ion sensitivity in silicon oxynitride layers was influenced by nitride content. The better alkali ion-sensitivity was achieved by increasing oxide content in bulk of silicon oxynitrides.

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Dielectric cap quantum well disordering for band gap tuning of InGaAs/InGaAsP quantum well structure using various combinations of semiconductor-dielectric capping layers (다양한 반도체-유전체 덮개층 조합을 이용한 InGaAs/InGaAsP 양자우물의 무질서화)

  • 조재원;이희택;최원준;우덕하;김선호;강광남
    • Journal of the Korean Vacuum Society
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    • v.11 no.4
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    • pp.207-211
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    • 2002
  • Band gap tuning by quantum well disordering in $In_{0.53}Ga_{0.47}As/InGaAsP(Q1.25)$ quantum well structure has been investigated using photoluminescence. The threshold temperature for the blue shift was about $750^{\circ}C$ , and the blue shift became larger as the annealing temperature increased. $SiO_2$ showed saturation as the annealing temperature increased. $SiN_x$caused larger blue shift than $SiO_2$, which is considered to be related to the low growth temperature of $SiN_x$. The diffusion of P and Ga are thought to be responsible for the blue shift of the $SiN_x$ and $SiO_2$capped quantum well disordering , respectively.

A Study on Reaction Stability Between Nickel and Side-wall Materials With Silicidation Temperature (니켈실리사이드 제조온도에 따른 측벽물질과의 반응안정성 연구)

  • An, Yeong-Suk;Song, Oh-Sung
    • Korean Journal of Materials Research
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    • v.11 no.2
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    • pp.71-75
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    • 2001
  • The reaction stability of nickel with side-wall materials of SiO$_2$ and Si$_3$N$_4$ on p-type 4"(100) Si substrate were investigated. Ni on 1300 $\AA$ thick SiO$_2$ and 500 $\AA$ - thick Si$_3$N$_4$ were deposited. Then the samples were annealed at 400, 500, 750 and 100$0^{\circ}C$ for 30min, and the residual Ni layer was removed by a wet process. The interface reaction stability was probed by AES depth Profiling. No reaction was observed at the Ni/SiO$_2$ and Ni/Si$_3$N$_4$, interfaces at 400 and 50$0^{\circ}C$. At 75$0^{\circ}C$, no reaction occurred at Ni/SiO$_2$ interface, while $NiO_x$ and Si$_3$N$_4$ interdiffused at Ni/Si$_3$N$_4$ interface. At 100$0^{\circ}C$, Ni layers on SiO$_2$ and Si$_3$N$_4$ oxidized into $NiO_x$ and then $NiO_x$ interacted with side-wall materials. Once $NiO_x$ was formed, it was not removed in wet etching process and easily diffused into sidewall materials, which could lead to bridge effect of gate-source/drain.

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A Study on the pH-, pNa- and pK-Sensing Properties of K and Al Coimplanted SiO$_2$ Thin Films (K 및 Al 이중이온주입된 SiO$_2$ 박막의 pH, pNa 및 pK 농도 감지특성에 관한 연구)

  • 김병수;신백균;이붕주;이덕출
    • The Transactions of the Korean Institute of Electrical Engineers C
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    • v.52 no.7
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    • pp.293-297
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    • 2003
  • Silicon dioxide (SiO$_2$) layers were fabricated on Si$_3$N$_4$/SiO$_2$/Si layer structures by low pressure chemical vapor deposition (LPCVD). Potassium and aluminum were then coimplanted by implanting potassium ions with the energy of 100 [keY] and dose of 5x10$^{16}$ [cm ̄$^2$] and 1x10$^{17}$ [cm ̄$^2$] into an aluminum buffer layer on the SiO$_2$Si$_3$N4/SiO$_2$/Si structure. The pH, pNa, and pK ion sensitivities of the resulting layers were investigated and compared to those of as-deposited silicon dioxide layer. The pK-sensitivity of the silicon dioxide was enhanced by the K and Al coimplantation. On the contrary, the pH and pNa-sensitivities of the coimplanted silicon dioxides were quite lower than that of the as-deposited silicon dioxide.

The Effect of Passivation Film with Inorganic/Epoxy Layers on Life Time Characteristics of OLED Device (OLED 내구성에 미치는 무기/에폭시층 보호막의 영향)

  • Lim, Jung-A;Ju, Sung-Hoo;Yang, Jae-Woong
    • Journal of Surface Science and Engineering
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    • v.42 no.6
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    • pp.287-293
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    • 2009
  • The passivation films with epoxy layer on LiF, $SiN_x$ and LiF/$SiN_x$ inorganic layer were fabricated on OLED to protect device from the direct damage of $O_2$ and $H_2O$ and to apply for a buffer layer between OLED device and passivation multi-layer with organic/inorganic hybrid structure as to diminish the thermal stress and expansion. Red OLED doped with 1 vol.% Rubrene in $Alq_3$ was used as a basic device. The device structure was multi-layer of ITO(150 nm) / ELM200_HIL(50 nm) / ELM002_HTL(30 nm) / $Alq_3$: 1 vol.% Rubrene(30 nm) / $Alq_3$(30 nm) / LiF(0.7 nm) / Al(100 nm). LiF/epoxy applied as a protective layer didn't contribute to the improvement of life time. While in case of $SiN_x$/epoxy, damage was done in the passivation process because of difference in heat expansion between films which could occur during the formation of epoxy film. Using LiF/$SiN_x$/epoxy improved lifetime significantly without suffering damage in the process of forming films, therefore, the best structure of passivation film with inorganic/epoxy layers was LiF/$SiN_x$/E1.

Synthesis and Mechanical Properties of nc-TiN/a-Si$_3$N$_4$ Nanocomposite Coating Layer (나노복합체 nc-TiN/a-Si$_3$N$_4$ 코팅막의 합성 및 기계적 성질)

  • 김광호;윤석영;김수현;이건환
    • Journal of Surface Science and Engineering
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    • v.35 no.3
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    • pp.133-140
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    • 2002
  • The Ti-Si-N coating layers were synthesized on SKD 11 steel substrate by a DC reactive magnetron co-sputtering technique with separate Ti and Si targets. The high resolution transmission electron microscopy (HRTEM) and X-ray photoelectron spectroscopy (XPS) analyses for the coating layers revealed that microstructure of Ti-Si-N layer was nanocomposite, consisting of nano-sized TiN crystallites surrounded by amorphous $Si_3$$N_4$ phase. The highest hardness value of about 39 GPa was obtained at the Si content of ~11at.%, where the microstructure had fine TiN crystallites (about 5nm in size) dispersed uniformly in amorphous matrix. As the Si content in Ti-Si-N films increased, the TiN crystallites became from aligned to randomly oriented microstructure, finer, and fully penetrated by amorphous phase. Free Si appeared in the layers due to the deficit of nitrogen source at higher Si content. Friction coefficient and wear rate of the Ti-Si-N coating layer significantly decreased with increase of relative humidity. The self-lubricating tribe-layers such as $SiO_2$ or (OH)$Si_2$ seemed to play an important role in the wear behavior of Ti-Si-N film against steel.