An efficient interconnection unit composed of electron-transporting layer/metal/p-doped hole-transporting layer for tandem organic photovoltaics

Hyun-Sub Shim; Sei-Yong Kim; Ji Whan Kim; Tae-Min Kim; Chang-Heon Lee; Jang-Joo Kim

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An efficient interconnection unit composed of electron-transporting layer/metal/p-doped hole-transporting layer for tandem organic photovoltaics

机译：由电子传输层/金属/ p掺杂的空穴传输层组成的高效串联单元，用于串联有机光伏

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We report an efficient interconnection unit (ICU) consisting of an electron transporting layer/metal/ p-doped hole transporting layer (p-HTL) structure for tandem organic photovoltaic (TOPV) cells. The ICU satisfies all the requirements of optical transparency and low voltage loss and for functioning as an optical spacer. The variation of the short circuit current and open circuit voltage (V_(OC)) of the TOPV cells with increasing thickness of the p-HTL in the ICU followed the theoretical predictions, proving that the ICU does not disturb the electrical characteristics of the TOPV cells up to a p-HTL thickness of 100 nm with minimal V_(OC) loss (～3%).

机译：我们报告了一种高效的互连单元（ICU），该单元由用于串联有机光伏（TOPV）电池的电子传输层/金属/ p掺杂空穴传输层（p-HTL）结构组成。 ICU满足光学透明度和低电压损耗以及用作光学垫片的所有要求。随着ICU中p-HTL厚度的增加，TOPV电池的短路电流和开路电压（V_（OC））的变化遵循理论预测，证明了ICU不会干扰TOPV的电气特性p-HTL厚度最大为100 nm的电池，V_（OC）损失最小（〜3％）。

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来源
《Applied Physics Letters》 |2013年第20期|203903.1-203903.4|共4页
作者
Hyun-Sub Shim; Sei-Yong Kim; Ji Whan Kim; Tae-Min Kim; Chang-Heon Lee; Jang-Joo Kim;
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作者单位

WCU Hybrid Materials Program, Department of Materials Science and Engineering and The Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

Department of Materials Science and Engineering and the Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

Department of Materials Science and Engineering and the Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

WCU Hybrid Materials Program, Department of Materials Science and Engineering and The Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

Department of Materials Science and Engineering and the Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

WCU Hybrid Materials Program, Department of Materials Science and Engineering and The Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea,Department of Materials Science and Engineering and the Center for Organic Light Emitting Diode, Seoul National University, Seoul 151-74, South Korea;

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An efficient interconnection unit composed of electron-transporting layer/metal/p-doped hole-transporting layer for tandem organic photovoltaics

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