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20世紀美術における抽象性とフラクタル幾何学
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Multicommutation cold vapour atomic fluorescence determination of Hg in water
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Preparation and electrochemical characterization of polyvinylchloride/ FeTiO3-co-Fe3O4 nanoparticles mixed matrix ion exchange membranes: Investigation of concentration and pH effects
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נױ ײדע ..... איך ײדע האדם
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주창형·대변형 NGO의 회원참여프로그램 분석 : 〈참여연대〉를 중심으로 = Analysis of participatory program for membership in advocacy NGO : with the focus on the study of people's solidarity for participatory democracy(PSPD)
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Intensity-Dependent Transient Photocurrent of Organic Bulk Heterojunction Solar Cells
박현민,진보아,김용현,임찬,안종덕,박훈,Wenjing Tian 한국물리학회 2017 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.70 No.2
An understanding of the behaviors of photo-generated charge carriers (CCs) has a crucial meaning for establishing a reliable model to describe the operating concept of photovoltaic devices. One of the most-widely used techniques to characterize transport behavior of CCs is a transient photocurrent measurement using a short laser pulse excitation. However, conventional transient photocurrent measurements, often referred to as the time-of-flight method, have a drawback due to the demand for relatively thicker active layers. This is mainly to observe a clear transit time for the CCs; however, some uncertainties can arise when the properties of a thicker active layer are adapted to the properties of conventionally thin active layer of an optimized device configuration. Therefore, we studied two models, one based on a polythiophene derivative and the other based on a narrow bandgap polymer derivative of an organic bulk heterojunction system, by using a transient photocurrent method with a conventional active layer thickness. This comparative study has shown clearly different transient photocurrent behaviors between the two systems when the excitation intensity, as well as the applied electric field, is varied.
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