One-dimensional graphene nanoribbons hybridized with carbon nanotubes as cathode and anode interfacial layers for high performance solar cells

Zhang Yong; Liu Yawen; Chen Lie; Hu Xiaotian; Zhang Lin; Hu Lin; Chen Yiwang

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One-dimensional graphene nanoribbons hybridized with carbon nanotubes as cathode and anode interfacial layers for high performance solar cells

机译：用碳纳米管与高性能太阳能电池的阴极和阳极界面层杂交的一维石墨烯纳米

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Solution processible graphene oxide nanoribbons (GONRs) with a continuous one-dimensional length and the remaining carbon nanotubes (CNTs) have been synthesized from the partial unzipping of multiwalled carbon nanotubes (MWCNTs). Such low-cost GONRs hybridized with CNTs (GONR/CNTs) show solution processibility as well as a tunable work function and multifunctional interfacial modification in polymer solar cells (PSCs) due to well-defined nanoribbons containing CNTs with a continuous one-dimensional length that promote charge transport, different from the GONRs unzipped from single-walled carbon nanotubes that tend to form a large amount of graphene oxide pieces. Incorporation of the GONR/CNTs into solution processed PSCs as an electron transporting layer (ETL) and hole transporting layer (HTL) simultaneously delivers a high device performance with long-term stability. The results demonstrate that multifunctional GONR/CNTs unzipped from MWCNTs would be promising interfacial materials for solution processed high performance PSCs.

机译：溶液的加工石墨烯氧化物纳米杆（GONRS）具有连续一维长度和剩余的碳纳米管（CNT）已经从多壁碳纳米管（MWCNT）的部分解压缩中合成。由于CNTS（GONR / CNT）杂交的这种低成本的GONR显示了由于含有连续一维长度的CNT的明确定义的纳米纤维波纹而在聚合物太阳能电池（PSC）中的溶液加工性以及可调谐的功函数和多功能界面改性促进电荷运输，与从单壁碳纳米管中解压缩的GONR不同，倾向于形成大量的石墨烯氧化物片。作为电子传输层（ETL）和空穴传输层（HTL）将GONR / CNT掺入溶液处理的PSC，同时通过长期稳定性地提供高器件性能。结果表明，从MWCNT中解压缩的多功能原子/ CNT是对溶液加工高性能PSC的界面材料。

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来源
《RSC Advances》 |2015年第61期|共9页
作者
Zhang Yong; Liu Yawen; Chen Lie; Hu Xiaotian; Zhang Lin; Hu Lin; Chen Yiwang;
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Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

Nanchang Univ Coll Chem Inst Polymers Nanchang 330031 Peoples R China;

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正文语种 eng
中图分类化学;
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1. One-dimensional graphene nanoribbons hybridized with carbon nanotubes as cathode and anode interfacial layers for high performance solar cells [J] . Zhang Yong, Liu Yawen, Chen Lie, RSC Advances . 2015,第61期

机译：用碳纳米管与高性能太阳能电池的阴极和阳极界面层杂交的一维石墨烯纳米
2. Graphene Oxide:Single-Walled Carbon Nanotube-Based Interfacial Layer for All-Solution-Processed Multijunction Solar Cells in Both Regular and Inverted Geometries (Adv. Energy Mater. 3/2012) [J] . Vincent C. Tung, Jaemyung Kim, Jiaxing Huang Advanced energy materials . 2012,第3期

机译：氧化石墨烯：基于单壁碳纳米管的界面层，适用于所有溶液处理的规则几何形状和反向几何形状（Adv。Energy Mater。3/2012）
3. Graphene Oxide:Single-Walled Carbon Nanotube-Based Interfacial Layer for All-Solution-Processed Multijunction Solar Cells in Both Regular and Inverted Geometries [J] . Vincent C. Tung, Jaemyung Kim, Jiaxing Huang Advanced energy materials . 2012,第3期

机译：氧化石墨烯：基于单壁碳纳米管的界面层，适用于所有溶液处理的规则几何形状和反向几何形状的多结太阳能电池
4. Effect of ZnO Interfacial Layer Grown by Atomic Layer Deposition on the Performance of Graphene/Silicon Schottky Junction Solar Cells [C] . Aaesha Alnuaimi, Ibraheem Almansouri, Irfan Saadat, World Conference on Photovoltaic Energy Conversion;European Photovoltaic Solar Energy Conference;Photovoltaic Science and Engineering Conference;IEEE Photovoltaic Specialist Conference . 2018

机译：原子层沉积生长的ZnO界面层对石墨烯/硅肖特基结太阳能电池性能的影响
5. Utilization of Metal Oxide Cathode Interfacial Layer on Donor/Acceptor Solar Cells [D] . Wang, Mingdong 2011

机译：供体/受体太阳能电池上金属氧化物阴极界面层的利用
6. Hafnium metallocene compounds used as cathode interfacial layers for enhanced electron transfer in organic solar cells [O] . Keunhee Park, Seungsik Oh, Donggeun Jung, 2012

机译：cathode金属茂化合物用作阴极界面层可增强有机太阳能电池中的电子转移
7. High-Performance Lithium-Ion Capacitors Based on CoO-Graphene Composite Anode and Holey Carbon Nanolayer Cathode [O] . -1

机译：基于Coo-Graphene复合阳极和多孔碳纳米层阴极的高性能锂离子电容器
8. Interfacial Thermal Conductance Limit and Thermal Rectification Across Vertical Carbon Nanotube/Graphene Nanoribbon-Silicon Interfaces. [R] . Vallabhaneni, A. K., Qiu, B., Hu, J., 2013

机译：垂直碳纳米管/石墨烯纳米带 - 硅界面的界面热导限制和热整流。

One-dimensional graphene nanoribbons hybridized with carbon nanotubes as cathode and anode interfacial layers for high performance solar cells

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