Bibliografías temáticas / External gettering

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Literatura académica sobre el tema "External gettering"

Autor: Grafiati

Publicado: 25 de mayo de 2024

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Artículos de revistas sobre el tema "External gettering"

Hofstetter, Jasmin, Jean F. Lelièvre, Carlos del Cañizo y Antonio Luque. "Study of Internal versus External Gettering of Iron during Slow Cooling Processes for Silicon Solar Cell Fabrication". Solid State Phenomena 156-158 (octubre de 2009): 387–93. http://dx.doi.org/10.4028/www.scientific.net/ssp.156-158.387.

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The eect of slow cooling after dierent high temperature treatments on the in- terstitial iron concentration and on the electron lifetime of p-type mc-Si wafers has been in- vestigated. The respective impacts of internal relaxation gettering and external segregation gettering of metal impurities during an extended phosphorous diusion gettering are studied. It is shown that the enhanced reduction of interstitial Fe during extended P-gettering is due to an enhanced segregation gettering while faster impurities like Cu and Ni are possibly reduced due to an internal gettering eect.

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Macdonald, Daniel, An Yao Liu y Sieu Pheng Phang. "External and Internal Gettering of Interstitial Iron in Silicon for Solar Cells". Solid State Phenomena 205-206 (octubre de 2013): 26–33. http://dx.doi.org/10.4028/www.scientific.net/ssp.205-206.26.

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The removal of dissolved iron from the wafer bulk is important for the performance of p-type multicrystalline silicon solar cells. In this paper we review some recent progress in understanding both external and internal gettering of iron. Internal gettering at grain boundaries and dislocations occurs naturally during ingot cooling, and can also be driven further during cell processing, especially by moderate temperature anneals (usually below 700 °C). Internal gettering at intra-grain defects plays key a role during such precipitation annealing. External gettering to phosphorus diffused regions is crucial in reducing the dissolved iron concentration during cell processing, although its effectiveness depends strongly on the diffusion temperature and profile. Gettering of Fe by boron and aluminum diffusions is also found to be very effective under certain conditions.

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Martinuzzi, Santo y Isabelle Périchaud. "External Gettering for Multicrystalline Silicon Wafers". Solid State Phenomena 47-48 (julio de 1995): 153–64. http://dx.doi.org/10.4028/www.scientific.net/ssp.47-48.153.

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Lysáček, David, Jan Šik y Petr Bábor. "Polycrystalline Silicon Layers with Enhanced Thermal Stability". Solid State Phenomena 178-179 (agosto de 2011): 385–91. http://dx.doi.org/10.4028/www.scientific.net/ssp.178-179.385.

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We report on a new method of external gettering in silicon substrate for semiconductor applications. The proposed method is based on the deposition of a multilayer system formed by introducing a number of thin buried silicon oxide layers into the thick polycrystalline silicon layer deposited on the wafer backside. Oxide films of a few nanometer thicknesses significantly retard both the grain growth and subsequent loss of the gettering capability of the polycrystalline silicon layer during high temperature annealing. The mechanisms of the grain growth and the influence of the embedded oxide layers on the gettering function in the multilayer system are discussed. We used scanning electron microscopy and transmission electron microscopy for the characterization of the multilayer system, and intentional contamination for demonstration of the gettering properties.

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Périchaud, Isabelle, F. Floret, M. Stemmer y Santo Martinuzzi. "Phosphorus External Gettering Efficiency in Multicrystalline Silicon Wafers". Solid State Phenomena 32-33 (diciembre de 1993): 77–82. http://dx.doi.org/10.4028/www.scientific.net/ssp.32-33.77.

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Lysáček, David, Petr Kostelník y Petr Pánek. "Polycrystalline Silicon Gettering Layers with Controlled Residual Stress". Solid State Phenomena 205-206 (octubre de 2013): 284–89. http://dx.doi.org/10.4028/www.scientific.net/ssp.205-206.284.

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We report on a novel method of low pressure chemical vapor deposition of polycrystalline silicon layers used for external gettering in silicon substrate for semiconductor applications. The proposed method allowed us to produce layers of polycrystalline silicon with pre-determined residual stress. The method is based on the deposition of a multilayer system formed by two layers. The first layer is intentionally designed to have tensile stress while the second layer has compressive stress. Opposite sign of the residual stresses of the individual layers enables to pre-determine the residual stress of the gettering stack. We used scanning electron microscopy for structural characterization of the layers and intentional contamination for demonstration of the gettering properties. Residual stress of the layers was calculated from the wafer curvature.

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Martinuzzi, Santo, I. Perichad y M. Stemmer. "External Gettering around Extended Defects in Multicrystalline Silicon Wafers". Solid State Phenomena 37-38 (marzo de 1994): 361–66. http://dx.doi.org/10.4028/www.scientific.net/ssp.37-38.361.

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Gay, N. y S. Martinuzzi. "External self-gettering of nickel in float zone silicon wafers". Applied Physics Letters 70, n.º 19 (12 de mayo de 1997): 2568–70. http://dx.doi.org/10.1063/1.118921.

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Hwan Kim, Yong, Ryosuke O. Suzuki, Hiroshi Numakura, Hirobumi Wada y Katsutoshi Ono. "Removal of oxygen and nitrogen from niobium by external gettering". Journal of Alloys and Compounds 248, n.º 1-2 (febrero de 1997): 251–58. http://dx.doi.org/10.1016/s0925-8388(96)02679-5.

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Park, Hyomin, Sung Ju Tark, Chan Seok Kim, Sungeun Park, Young Do Kim, Chang-Sik Son, Jeong Chul Lee y Donghwan Kim. "Effect of the Phosphorus Gettering on Si Heterojunction Solar Cells". International Journal of Photoenergy 2012 (2012): 1–7. http://dx.doi.org/10.1155/2012/794876.

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To improve the efficiency of crystalline silicon solar cells, should be collected the excess carrier as much as possible. Therefore, minimizing the recombination both at the bulk and surface regions is important. Impurities make recombination sites and they are the major reason for recombination. Phosphorus (P) gettering was introduced to reduce metal impurities in the bulk region of Si wafers and then to improve the efficiency of Si heterojunction solar cells fabricated on the wafers. Resistivity of wafers was measured by a four-point probe method. Fill factor of solar cells was measured by a solar simulator. Saturation current and ideality factor were calculated from a dark current density-voltage graph. External quantum efficiency was analyzed to assess the effect of P gettering on the performance of solar cells. Minority bulk lifetime measured by microwave photoconductance decay increases from 368.3 to 660.8 μs. Open-circuit voltage and short-circuit current density increase from 577 to 598 mV and 27.8 to 29.8 mA/cm2, respectively. The efficiency of solar cells increases from 11.9 to 13.4%. P gettering will be feasible to improve the efficiency of Si heterojunction solar cells fabricated on P-doped Si wafers.

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Más fuentes

Tesis sobre el tema "External gettering"

Hayes, Maxim. "Intégration de collecteurs de charges avancés dans les cellules solaires bifaciales à haut rendement : vers un procédé générique pour les nouveaux matériaux silicium". Electronic Thesis or Diss., Aix-Marseille, 2020. http://www.theses.fr/2020AIXM0519.

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L'industrie PV connaît un fort engouement pour les cellules PERC. Néanmoins leurs performances sont limitées par deux sources de recombinaison des porteurs de charge: au niveau de l'émetteur obtenu par diffusion de P, et en face arrière aux interfaces Al-Si. L'objectif principal de cette thèse vise à limiter ces pertes en intégrant deux nouveaux collecteurs. Le premier est un émetteur sélectif (ES) obtenu par implantation ionique à immersion plasma (PIII) de P. Le second concerne un contact passivé (CP) constitué d'un film de silicium polycristallin (poly-Si) dopé au B sur un oxyde mince. Dans un second temps, les travaux s'intéressent à la compatibilité entre ces collecteurs et les plaquettes de Si issues de lingots fabriqués par solidification dirigée. Un procédé de masquage in situ des implantations PIII a permis d'élaborer des ES avec une bonne maîtrise de la géométrie du motif et des niveaux de dopage. Ensuite, un éventail de techniques pour la métallisation du poly-Si(B) a été étudié. La voie de métallisation par sérigraphie de pâtes traversantes est la plus encourageante à l'heure actuelle. Elle permet l'utilisation de couches hydrogénantes non sacrificielles qui ont mené à l'obtention de précurseurs de cellules avec un excellent niveau de passivation. Néanmoins, la résistance de contact entre le métal et le poly-Si(B) demeure à ce jour trop élevée pour une intégration optimale. Enfin, l'association de Si multicristallin avec différents CP a montré la propension de ces derniers à générer un effet getter externe efficace. Cela laisse envisager une très bonne compatibilité entre l'architecture cellule développée et les Si bas-coût et à faible emprunte carbone
Thanks to a relatively simple fabrication process and high conversion efficiency values the PERC structure is well established at the industrial level. Nevertheless, industrial PERC solar cells performances are mostly limited by two charge carrier recombination sources: P thermally diffused emitter on the front side and the Al-Si interfaces at the rear contacts. The main goal of this work aims at limiting both recombination sources. A selective emitter (SE) obtained by plasma immersion ion implantation (PIII) is developed for an integration on the front side; whereas a B-doped polysilicon (poly-Si) on oxide passivated contact (PC) is integrated on the back side. The second goal of this work consists in evaluating the compatibility between these advanced carrier collectors and directionally solidified Si materials. SE featuring good geometrical properties and a well-controlled doping were fabricated thanks to an in situ localized doping process obtained with a specific mask developed for PIII. Besides, several metal deposition technologies were investigated for the poly-Si(B). Fire-through screen-printing appears as the most promising approach so far. Indeed, the deposition of a non-sacrificial hydrogen-rich layer allowed to reach an excellent surface passivation level for solar cell precursors. However, the specific contact resistivity obtained remains too high for an optimal cell integration. Lastly, the fabrication of poly-Si PC showed excellent external gettering efficiencies for multicrystalline Si. Thus, the potential of the developed cell structure to be integrated with low-cost and low carbon footprint materials is encouraging

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Actas de conferencias sobre el tema "External gettering"

Joshi, Subhash M., Roman Gafiteanu, Ulrich M. Gösele y Teh Y. Tan. "Simulations and experiments on external gettering of silicon". En The 13th NREL photovoltaics program review meeting. AIP, 1996. http://dx.doi.org/10.1063/1.49382.

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Hieslmair, Henry, Scott A. McHugo y Eicke R. Weber. "External gettering of silicon materials containing various efficiency-limiting defects". En The 13th NREL photovoltaics program review meeting. AIP, 1996. http://dx.doi.org/10.1063/1.49431.

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Martinuzzi, S., H. El Ghitani, D. Sarti y P. Torchio. "Influence of phosphorus external gettering on recombination activity and passivation of defects in polycrystalline silicon". En Conference Record of the Twentieth IEEE Photovoltaic Specialists Conference. IEEE, 1988. http://dx.doi.org/10.1109/pvsc.1988.105975.

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Mishra, Kamal K., Mark Stinson y John K. Lowell. "Influence of oxygen-iron interaction on the external gettering of Fe in p-Si by polycrystalline silicon film". En Microelectronic Manufacturing '95, editado por John K. Lowell, Ray T. Chen y Jagdish P. Mathur. SPIE, 1995. http://dx.doi.org/10.1117/12.221189.

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