英语翻译The availability and expensiveness of the indium that is used in chalcopyrite-based thin film solar cells lead to the high production costs of the current large-scale thin film solar cells.Therefore,CZTSe has been studied as a novel absor
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英语翻译The availability and expensiveness of the indium that is used in chalcopyrite-based thin film solar cells lead to the high production costs of the current large-scale thin film solar cells.Therefore,CZTSe has been studied as a novel absor
英语翻译
The availability and expensiveness of the indium that is used in chalcopyrite-based thin film solar cells lead to the high production costs of the current large-scale thin film solar cells.Therefore,CZTSe has been studied as a novel absorber material in order to lower the production cost of solar cell devices.In 2009,Zoppi et al.successfully fabricated a CZTSe thin film solar cell with a conversion efficiency of 3.2% under standard AM1.5 illumination.Additionally,Mellikov et al.used CZTSe monograins in a CZTSe solar cell to obtain an efficiency of 2.14% So far,several CZTSe compound preparations,mostly using vacuum deposition and selenization,have successfully been demonstrated for CZTSe films .One report examined the preparation of CZTSe monograins.
In this study,CZTSe was synthesized using a simple and cost-effective solid state reaction method in order to prepare a solid/bulk compound CZTSe target material for physical vapor deposition (sputtering or pulsed laser deposition).It is expected in the near future that the synthesized powders could also be used as a starting powder for preparing CZTSe thin films by using non-vacuum method (screen printing,tape casting,etc.).
英语翻译The availability and expensiveness of the indium that is used in chalcopyrite-based thin film solar cells lead to the high production costs of the current large-scale thin film solar cells.Therefore,CZTSe has been studied as a novel absor
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可用性和价格昂贵的铟是用来在黄铜矿型薄膜太阳能电池导致当前大型薄膜太阳能电池的生产成本高.因此,CZTSe已被研究作为一种新的吸收材料以降低太阳能电池生产成本.2009,佐比等人.成功地制备了CZTSe薄膜太阳能电池与一个标准的AM1.5光照下的3.2%的转换效率.此外,mellikov等人.在太阳能电池用monograins CZTSe CZTSe获得2.14%的效率到目前为止,几个CZTSe复方制剂,大多采用真空沉积和硒化,已经成功地被证明为CZTSe薄膜.一个报告审查的monograins CZTSe的制备.在这项研究中,使用一个简单的和具有成本效益的固相反应法,以制备的固体/体积为物理气相沉积复合CZTSe靶材料合成CZTSe是(溅射或脉冲激光沉积).预计在不久的将来,合成的粉末,也可以用非真空法制备CZTSe薄膜的起始粉末(丝网印
刷,流延,等).
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