用于多结聚合物太阳能电池的化学工程氧化钛互连层

Chemically Engineered Titanium Oxide Interconnecting Layer for Multijunction Polymer Solar Cells.

作者信息

Kim Geunjin, Back Hyungcheol, Kong Jaemin, Naseer Laiba, Jeong Jiwon, Son Jaehyoung, Lee Jongjin, Kang Sung-Oong, Lee Kwanghee

机构信息

Hanwha Solutions, Seoul 04541, Republic of Korea.

Department of Physics, Research Institute of Natural Sciences, Gyeongsang National University, Jinju 52828, Republic of Korea.

出版信息

Polymers (Basel). 2024 Feb 21;16(5):595. doi: 10.3390/polym16050595.

DOI:10.3390/polym16050595

PMID:38475280

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10935189/

Abstract

We report chemically tunable n-type titanium oxides using ethanolamine as a nitrogen dopant source. As the amount of ethanolamine added to the titanium oxide precursor during synthesis increases, the Fermi level of the resulting titanium oxides (ethanolamine-incorporated titanium oxides) significantly changes from -4.9 eV to -4.3 eV, and their free charge carrier densities are enhanced by two orders of magnitudes, reaching up to 5 × 10 cm. Unexpectedly, a basic ethanolamine reinforces not only the n-type properties of titanium oxides, but also their basicity, which facilitates acid-base ionic junctions in contact with acidic materials. The enhanced charge carrier density and basicity of the chemically tuned titanium oxides enable multi-junction solar cells to have interconnecting junctions consisting of basic n-type titanium oxides and acidic p-type PEDOT:PSS to gain high open-circuit voltages of 1.44 V and 2.25 V from tandem and triple architectures, respectively.

摘要

我们报道了使用乙醇胺作为氮掺杂源的化学可调n型钛氧化物。随着合成过程中添加到钛氧化物前驱体中的乙醇胺量增加，所得钛氧化物（掺入乙醇胺的钛氧化物）的费米能级从-4.9 eV显著变化到-4.3 eV，其自由电荷载流子密度提高了两个数量级，达到5×10 cm。出乎意料的是，碱性乙醇胺不仅增强了钛氧化物的n型特性，还增强了它们的碱性，这有利于与酸性材料接触时形成酸碱离子结。化学调谐钛氧化物增强的电荷载流子密度和碱性使多结太阳能电池能够具有由碱性n型钛氧化物和酸性p型PEDOT:PSS组成的互连结，分别从串联和三结结构中获得1.44 V和2.25 V的高开路电压。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f95c/10935189/4759be4b0281/polymers-16-00595-g001.jpg

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用于多结聚合物太阳能电池的化学工程氧化钛互连层

Chemically Engineered Titanium Oxide Interconnecting Layer for Multijunction Polymer Solar Cells.

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