We estimated the organic perovskite photovoltaic cells by fabrication procedures. In the 2 steps fabrication of perovskite, we introduced the air-blowing during PbI2 and CH3NH3PbI3 thin films. The air-blowing enhanced the device performance and diminished the dispersion of device performance.

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In this study, we etched an as-implanted p-type wafer to obtain an optimum concentration profile for an emitter of a crystalline silicon solar cell. An improvement in solar cell efficiency was demonstrated by low-energy phosphorus ion implantation at a proper dose.

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Accelerated methods for evaluating thermo humidity resistance of single-cell PV module are demonstrated with standard damp heat test (DH) and non-standard pressure cooker test (PCT). Our result shows testing under PCT 121℃/100% has fastest degradation compared to other condition and the degradation is highly related to its encapsulated type.

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We fabricated two solar cells with the different location of the QRs layer. The measured result showed that the P-type device has better efficiency and open circuit voltage (Voc), and the N-type device is good at the short circuit current (Jsc).

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In this study, we introduce poly(3,4-thylenedioxythiophene): poly(styrenesulfonate) (PEDOT:PSS) as the counter electrode (CE) of the dye sensitized solar cell to replace the traditional platinum CE. The conductivity and redox ability of PEDOT:PSS CEs is improve by carbon black doping and vulcanize treatment. The optimums device shows the efficiency of 7.7% with the JSC of 15.84 mA/cm2, VOC of 0.73 V, and FF of 0.66.

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