• Title/Summary/Keyword: Si heterojunction

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The a-Si:H/poly-Si Heterojunction Solar Cells

  • Kim, Sang-Su;Kim, do-Young;Lim, Dong-Gun;Junsin Yi;Lee, Jae-Choon;Lim, Koeng-Su
    • Journal of Electrical Engineering and information Science
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    • v.2 no.5
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    • pp.65-71
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    • 1997
  • We present heterojunction solar cells with a structure of metal/a-Si:H(n-i-p)/poly-Si(n-p)/metal for the terrestrial applications. This cell consists fo two component cells: a top n-i-p junction a-Si:Hi cell with wide-bandgap 1.8eV and a bottom n-p junction poly-Si cell with narrow-bandgap 1.1eV. The efficiency influencing factors of the solar cell were investigated in terms of simulation an experiment. Three main topics of the investigated study were the bottom cell with n-p junction poly-Si, the top a-Si:H cell with n-i-p junction, and the interface layer effects of heterojunction cell. The efficiency of bottom cell was improved with a pretreatment temperature of 900$^{\circ}C$, surface polishing, emitter thickness of 0.43$\mu\textrm{m}$, top Yb metal, and grid finger shading of 7% coverage. The process optimized cell showed a conversion efficiency about 16%. Top cell was grown by suing a photo-CVD system which gave an ion damage free and good p/i-a-Si:H layer interface. The heterojunction interface effect was examined with three different surface states; a chemical passivation, thermal oxide passivation, and Yb metal. the oxide passivated cell exhibited the higher photocurrent generation and better spectral response.

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Dependence of the Heterojunction Diode Characteristics of ZnO/ZnO/p-Si(111) on the Buffer Layer Thickness (버퍼막 두께에 따른 ZnO/ZnO/p-Si(111) 이종접합 다이오드 특성 평가)

  • Heo, Joo-Hoe;Ryu, Hyuk-Hyun;Lee, Jong-Hoon
    • Korean Journal of Materials Research
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    • v.21 no.1
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    • pp.34-38
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    • 2011
  • In this study, the effects of an annealed buffer layer with different thickness on heterojunction diodes based on the ZnO/ZnO/p-Si(111) systems were reported. The effects of an annealed buffer layer with different thickness on the structural, optical, and electrical properties of zinc oxide (ZnO) films on p-Si(111) were also studied. Before zinc oxide (ZnO) deposition, different thicknesses of ZnO buffer layer, 10 nm, 30 nm, 50 nm and 70 nm, were grown on p-Si(111) substrates using a radio-frequency sputtering system; samples were subsequently annealed at $700^{\circ}C$ for 10 minutes in $N_2$ in a horizontal thermal furnace. Zinc oxide (ZnO) films with a width of 280nm were also deposited using a radio-frequency sputtering system on the annealed ZnO/p-Si (111) substrates at room temperature; samples were subsequently annealed at $700^{\circ}C$ for 30 minutes in $N_2$. In this experiment, the structural and optical properties of ZnO thin films were studied by XRD (X-ray diffraction), and room temperature PL (photoluminescence) measurements, respectively. Current-voltage (I-V) characteristics were measured with a semiconductor parameter analyzer. The thermal tensile stress was found to decrease with increasing buffer layer thickness. Among the ZnO/ZnO/p-Si(111) diodes fabricated in this study, the sample that was formed with the condition of a 50 nm thick ZnO buffer layer showed a strong c-axis preferred orientation and I-V characteristics suitable for a heterojunction diode.

Characteristics of p-Cu2O/n-Si Heterojunction Photodiode made by Rapid Thermal Oxidation

  • Ismail, Raid A.
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.9 no.1
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    • pp.51-54
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    • 2009
  • Transparent Cuprous oxide film was deposited by rapid thermal oxidation (RTO) of Cu at $500^{\circ}C$/45s condition on textured single-crystal n-Si substrate to form $Cu_2O$/n-Si heterojunction photodiode. The Hall effect measurements for the $Cu_2O$ films showed a p-type conductivity. The photovoltaic and electrical properties of the junction at room temperature were investigated without any post-deposition annealing. I-V characteristics revealed that the junction has good rectifying properties. The C-V data showed abrupt junction and a built-in potential of 1 V. The photodiode showed good stability and high responsivity in the visible at three regions; 525 nm, 625-700 nm, and 750nm denoted as regions A, B, and C, respectively.

A Study of Optimization a-Si:H(p) for n-type c-Si Heterojunction Solar Cell (N-Type c-Si 이종접합 태양전지 제작을 위한 a-Si:H(p) 가변 최적화)

  • Heo, Jong-Kyu;Yoon, Ki-Chan;Choi, Hyung-Wook;Lee, Young-Suk;Dao, Vinh Ai;Kim, Young-Kuk;Yi, Jun-Sin
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.06a
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    • pp.77-79
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    • 2009
  • Amorphous/crystalline silicon heterojunction solar cells, TCO/a-Si:H (p)/c-Si(n)/a-Si:H(n)/Al, are investigated. The influence of various parameters for the front structures was studied. We used thin (10 nm) a-Si:H(p) layers of amorphous hydrogenated silicon are deposited on top of a thick ($500{\mu}m$) crystalline c-Si wafer. This work deals with the influence of the a-Si:H(p) doping concentration on the solar cell performance is studied.

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Surface passivation study of a-Si:H/c-Si heterojunction solar cells using VHF-CVD (VHF-CVD를 이용한 a-Si:H/c-Si 이종접합태양전지 표면 패시배이션 연구)

  • Song, JunYong;Jeong, Daeyoung;Kim, Kyoung Min;Park, Joo Hyung;Song, Jinsoo;Kim, Donghwan;Lee, JeongChul
    • 한국신재생에너지학회:학술대회논문집
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    • 2011.05a
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    • pp.128.1-128.1
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    • 2011
  • In amorphous silicon and crystalline silicon(a-Si:H/c-Si) heterojuction solar cells, intrinsic hydrogenated amorphous silicon(a-Si:H) films play an important role to passivate the crystalline silicon wafer surfaces. We have studied the correlation between the surface passivation quality and nature of the Si-H bonding at the a-Si:H/c-Si interface. The samples were obtained by VHF-CVD under different deposition conditions. The passivation quality and analysis of all structures studied was performed by means of quasi steady state photoconductance(QSSPC) methods and fourier transform infrared spectrometer(FTIR) measurements respectively.

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The Influence of the Wafer Resistivity for Dopant-Free Silicon Heterojunction Solar Cell (실리콘 웨이퍼 비저항에 따른 Dopant-Free Silicon Heterojunction 태양전지 특성 연구)

  • Kim, Sung Hae;Lee, Jung-Ho
    • Journal of Surface Science and Engineering
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    • v.51 no.3
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    • pp.185-190
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    • 2018
  • Dopant-free silicon heterojunction solar cells using Transition Metal Oxide(TMO) such as Molybdenum Oxide($MoO_X$) and Vanadium Oxide($V_2O_X$) have been focused on to increase the work function of TMO in order to maximize the work function difference between TMO and n-Si for a high-efficiency solar cell. One another way to increase the work function difference is to control the silicon wafer resistivity. In this paper, dopant-free silicon heterojunction solar cells were fabricated using the wafer with the various resistivity and analyzed to understand the effect of n-Si work function. As a result, it is shown that the high passivation and junction quality when $V_2O_X$ deposited on the wafer with low work function compared to the high work function wafer, inducing the increase of higher collection probability, especially at long wavelength region. the solar cell efficiency of 15.28% was measured in low work function wafer, which is 34% higher value than the high work function solar cells.

Effect of Post-annealing Treatment on Copper Oxide based Heterojunction Solar Cells (산화물구리 기반 이종접합형 태양전지의 후열처리효과)

  • Kim, Sangmo;Jung, Yu Sup;Kim, Kyung Hwan
    • Journal of the Semiconductor & Display Technology
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    • v.19 no.2
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    • pp.55-59
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    • 2020
  • Copper Oxide (CuO) films were deposited on the n-type silicon wafer by rf magnetron sputtering for heterojunction solar cells. And then the samples were treated as a function of the annealing temperature (300-600℃) in a vacuum. Their electrical, optical and structural properties of the fabricated heterojunction solar cells were then investigated and the power conversion efficiencies (PCE) of the fabricated p-type copper oxide/n-type Si heterojunction cells were measured using solar simulator. After being treated at temperature of 500℃, the solar cells with CuO film have PCE of 0.43%, Current density of 5.37mA/㎠, Fill Factor of 39.82%.

TCO Workfunction Engineering with Oxygen Reactive Sputtering Method for Silicon Heterojunction Sola Cell Application

  • Bong, Seong-Jae;Kim, Seon-Bo;An, Si-Hyeon;Park, Hyeong-Sik;Lee, Jun-Sin
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.492-492
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    • 2014
  • On account of the good conductivity and optical properties, TCO is generally used in silicon heterojunction solar cell since the emitter material, hydrogenated amorphous silicon (a-Si:H), of the solar cell has low conductivity compare to the emitter of crystalline silicon solar cell. However, the work function mismatch between TCO layer and emitter leads to band-offset and interfere the injection of photo-generated carriers. In this study, work function engineering of TCO by oxygen reactive sputtering method was carried out to identify the trend of band-offset change. The open circuit voltage and short circuit current are noticeably changed by work function that effected from variation of oxygen ratio.

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