Anass El Karkri, Imane El mhamedi, Zakaria El malki, M. Bouachrine
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引用次数: 0
摘要
我们的工作包括通过DFT和TD-DFT方法,对六种作为BHJ太阳能电池电子给体材料的共轭有机化合物的电子和光学性质进行理论预测,其中PCBM是受体材料。本研究对于讨论取代基(供体单元)对这些化合物不同性质的影响,以及利用AMPS-1D模拟软件预测有机太阳能电池中有前途的材料是必要的。结果表明,所有分子都具有良好的几何、电子和光学性质,从而提高了基于这些材料的光伏电池的功率转换效率,p - eth - tedot - a分子的功率转换效率达到17%。
THEORETICAL STUDY OF NEW CANDIDATE ORGANIC MATERIALS FOR PHOTOVOLTAIC APPLICATIONS
Our work consists of a theoretical prediction, through DFT and TD-DFT methods, of the electronic and optical properties of six conjugated organic compounds used as electron donor materials in BHJ solar cells, of which PCBM is the acceptor material. This study is necessary to discuss the effect of substituents (donor units) on the different properties of these compounds, and to predict promising materials in organic solar cells using the AMPS-1D simulation software. The results obtained show that all the molecules have good geometric, electronic and optical properties, thus showing an increase in the power conversion efficiency of photovoltaic cells based on these materials, which reaches a value of 17% for the molecule P-Eth-TEdotT-A.
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