Journal Article10.1557/JMR.2004.0252
Organic solar cells: An overview
TL;DR: The current status of the field of organic solar cells and the important parameters to improve their performance are discussed in this paper. But, the two competitive production techniques used today are either wet solution processing or dry thermal evaporation of the organic constituents.
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Abstract: Organic solar cell research has developed during the past 30 years, but especially in the last decade it has attracted scientific and economic interest triggered by a rapid increase in power conversion efficiencies. This was achieved by the introduction of new materials, improved materials engineering, and more sophisticated device structures. Today, solar power conversion efficiencies in excess of 3% have been accomplished with several device concepts. Though efficiencies of these thin-film organicdevices have not yet reached those of their inorganic counterparts (η ≈ 10–20%); the perspective of cheap production (employing, e.g., roll-to-roll processes) drives the development of organic photovoltaic devices further in a dynamic way. The two competitive production techniques used today are either wet solution processing or dry thermal evaporation of the organic constituents. The field of organic solar cells profited well from the development of light-emitting diodes based on similar technologies, which have entered the market recently. We review here the current status of the field of organic solar cells and discuss different production technologies as well as study the important parameters to improve their performance.
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Citations
Synthesis and photovoltaic properties of a star-shaped molecule with triphenylamine as core and benzo[1,2,5]thiadiazol vinylene as arms
TL;DR: A solution-processable and star-shaped molecule 4-((E)-2-(benzo[1,2,5]thiadiazol-4-yl)vinyl)-N,N-bis (TPA-BT) has been designed and synthesized by palladium-catalyzed Heck reaction for the application in organic solar cells as discussed by the authors.
88
Electronic Structure and Properties of Organic Bulk-Heterojunction Interfaces
TL;DR: The electronic structure and physical mechanisms of carrier generation and transport in the organic bulk heterojunction are reviewed and the different electronic character of excitons and mobile charge is discussed, the former being highly molecular and the latter more delocalized.
87
Temperature effect on water splitting using a Si-doped hematite photoanode
TL;DR: In this paper, the influence of temperature on the performance of a photoelectrochemical (PEC) cell prepared with Si-doped hematite photoanode was studied for water splitting.
86
Tetrahedral n-type materials: efficient quenching of the excitation of p-type polymers in amorphous films
Palaniswamy Ganesan,Xiaoniu Yang,J Joachim Loos,Tom J. Savenije,Ruben D. Abellon,Han Zuilhof,Ernst J. R. Sudhölter +6 more
TL;DR: Tetrahedral naphthalenediimide compound 1 has been synthesized as an example of a new class of amorphous n-type materials, in which the nondirectionality obtained by its shape is decoupled from its optoelectronic properties.
85
Photoinduced Charge Transfer and Polaron Dynamics in Polymer and Hybrid Photovoltaic Thin Films: Organic vs Inorganic Acceptors
Kevin M. Noone,Selvam Subramaniyan,Qifeng Zhang,Guozhong Cao,Samson A. Jenekhe,David S. Ginger +5 more
TL;DR: In this paper, photoinduced absorption (PIA) spectroscopy was used to study charge generation and recombination in a series of bulk heterojunction blends relevant to organic and hybrid solar cells, including fullerene, phenyl-C61-butyric acid methyl ester (PCBM), oxides such as ZnO and TiO2, and colloidal quantum dots, including CdSe and PbS nanocrystals.
85
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