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Bis-Azide Low-Band Gap Cross-Linkable Molecule N3-CPDT(FBTTh2)2 to Fully ThermallyStabilize Organic Solar Cells Based on P3HT:PC61BM

机译：双叠氮化物低带隙可交联分子N3- CPDT（FBTTh2）2完全加热基于P3HT：PC61BM稳定有机太阳能电池

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We synthesized a novel bis-azide low-band gap cross-linkable molecule N3-[CPDT(FBTTh2)2] with wide absorption. This compound is of interest as an additive in polymer/fullerene bulk heterojunction solar cells. In addition to providing efficient thermal stabilization of the morphology, the additive can harvest additional solar light compared with pristine poly(3-hexyl thiophene) to improve the power-conversion efficiency (PCE). The additional donor material was visualized from the appearance of additional external quantum efficiency contributions between 650 and 800 nm. An open-circuit voltage increase of ∼2% compensates the decrease in the short-circuit current of ∼2% to achieve a fully thermally stabilized PCE of 3.5% after 24 h of annealing at 150 °C.

机译：我们合成了具有宽吸收性的新型双叠氮化物低带隙可交联分子N3- [CPDT（FBTTh2）2]。该化合物作为聚合物/富勒烯本体异质结太阳能电池中的添加剂是令人感兴趣的。除了提供有效的形态热稳定性外，与原始的聚（3-己基噻吩）相比，该添加剂还可以收获更多的太阳光，从而提高了功率转换效率（PCE）。从650至800 nm之间的其他外部量子效率贡献的出现可以看到其他供体材料。开路电压的增加约2％，补偿了短路电流的约2％的降低，以在150°C退火24小时后达到3.5％的完全热稳定PCE。

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期刊名称 ACS Omega
作者
Hussein Awada; §; Thérèse Gorisse; §; Romain Peresutti; Thomas Tjoutis; Joel J. E. Moreau; Guillaume Wantz; *; Olivier J. Dautel; *;
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年(卷),期 2017(2),4
年度 2017
页码 1340–1349
总页数 10
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专利

1. Bis-Azide Low-Band Gap Cross-Linkable Molecule N₃-[CPDT(FBTTh₂)₂] to Fully Thermally Stabilize Organic Solar Cells Based on P3HT:PC₆₁BM [J] . Hussein Awada, Thérèse Gorisse, Romain Peresutti, ACS Omega . 2017,第4期

机译：双叠氮化物低带隙可交联分子N _{3 -[CPDT（FBTTh _{2 ）_{2 ]完全热稳定有机太阳能电池基于P3HT：PC _{61 BM}}}}
2. A high performance inverted organic solar cell with a low band gap small molecule (p-DTS(FBTTh2)(2)) using a fullerene derivative-doped zinc oxide nanofilm modified with a fullerene-based self-assembled monolayer as the cathode [J] . Liao Sih-Hao, Jhuo Hong-Jyun, Cheng Yu-Shan, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2015,第45期

机译：一种具有低带隙小分子（p-DTS（FBTTh2）（2））的高性能倒置有机太阳能电池，使用富勒烯衍生物掺杂的氧化锌纳米膜改性，并以富勒烯基自组装单层膜为阴极
3. Improvement of bulk heterojunction organic solar cells based on PTB7:PC61BM with small amounts of P3HT [J] . Ohori Yurina, Fujii Shunjiro, Kataura Hiromichi, Japanese journal of applied physics . 2015,第4s期

机译：基于PTB7：PC61BM和少量P3HT的体异质结有机太阳能电池的改进
4. Development of Fullerene Based Molecules as an Acceptor Partner with P3HT for OPV Devices in a Thin Layer Organic Solar Cell [C] . Kei Matsumoto, Ken Yoshimura, Kiyotaka Sugawara, Manuel baizer memorial award symposium in organic electrochemistry 11 . 2014

机译：基于富勒烯的分子作为P3HT的受体合作伙伴，用于薄层有机太阳能电池中的OPV器件
5. Interfacial and Electrode Modifications in P3HT:PC61BM based Organic Solar Cells: Devices, Processing and Characterization. [D] . Das, Sayantan. 2015

机译：基于P3HT：PC61BM的有机太阳能电池中的界面和电极修饰：器件，加工和表征。
6. Rational Design of Low-Band Gap Star-Shaped Molecules With 2,4,6-Triphenyl-1,3,5-triazine as Core and Diketopyrrolopyrrole Derivatives as Arms for Organic Solar Cells Applications [O] . Xinhao Zhang, Ruifa Jin 1970

机译：以2,4,6-三苯基-1,3,5-三嗪为核芯并以二酮吡咯并吡咯衍生物为臂的低带隙星形分子的合理设计
7. Bis-Azide Low-Band Gap Cross-Linkable Molecule N3‑[CPDT(FBTTh2)2] to Fully Thermally Stabilize Organic Solar Cells Based on P3HT:PC61BM [O] . Hussein Awada, Thérèse Gorisse, Romain Peresutti, 2017

机译：双叠氮化物低带隙可交联分子N3- [CpDT（FBTTh2）2]基于p3HT全面热稳定有机太阳能电池：pC61Bm

Bis-Azide Low-Band Gap Cross-Linkable Molecule N3-CPDT(FBTTh2)2 to Fully ThermallyStabilize Organic Solar Cells Based on P3HT:PC61BM

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