Rhenium(I) complex as an electron acceptor in a photovoltaic device

Yue, Sumei; Li, Bin; Fan, Dongrui; Hong, Ziruo; Li, Wenlian

doi:10.1016/j.jallcom.2006.06.012

Cited by 10 publications

(2 citation statements)

References 17 publications

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“…Dennler et al [150] showed that to achieve15% efficiency in a tandem solar cell, the WBG cell donor should have a band gap of 1.6 eV, and the LBG cell donor should have a band gap of 1.3 eV, under the assumption that both cells have a flat quantum efficiency of 65%. Yue et al [151] developed an organic PV device based on triplet complex Re-Phen with power conversion efficiency of 4% which is high compared to the devices based other metal complexes, state increasing the PV efficiency owing to the existence of a charge transfer absorption. Mozer et al [152] presented successful strategies towards improved photovoltaic performance using various novel materials, including double-cable polymers, regioregular polymers and low bandgap polymers demonstrating that the bulk heterojunction concept is a viable approach towards developing photovoltaic systems by inexpensive solution-based fabrication technologies.…”

Section: Polymer and Organic Solar Cellsmentioning

confidence: 99%

Recent Progressive Status of Materials for Solar Photovoltaic Cell: A Comprehensive Review

Muhammad¹,

WAZIRI²,

Shitu³

et al. 2019

SJEE

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Due to increase in demand of electricity and high environment hazard cause by fossil fuel in generation electricity, renewable energy (such as solar energy, wind energy and so on) researches are becoming mandatory to researchers especially scientists and engineers and in solar energy generation an electronic device is used to convert energy from sun into electricity which is known as solar photovoltaic cell and the efficiency of this device is improving by improving the materials used in manufacturing it. This paper was aimed to review the status of these materials for solar photovoltaic cell up to date, from the review it was discovered that the materials are classified based on the generations whereby their efficiencies are increasing from first generation to third generation. And the current market is mainly covered by the first two generations. The first generation comprises well-known medium/low cost technologies that lead to moderate yields. The second generation (thin-film technologies) includes devices that have lower efficiency albeit are cheaper to manufacture. The third generation presents the use of novel materials, as well as a great variability of designs, and comprises expensive but very efficient cells. Although there is fourth generation which their performance and stability was yet to be found as the review disclosed.

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Section: Polymer and Organic Solar Cellsmentioning

confidence: 99%

Recent Progressive Status of Materials for Solar Photovoltaic Cell: A Comprehensive Review

Muhammad¹,

WAZIRI²,

Shitu³

et al. 2019

SJEE

View full text Add to dashboard Cite

show abstract

“… demonstrated efficient white organic light‐emitting device based on exciplex with higher luminance and luminous efficiency, and this bifunctional device with electroluminescence and PV performances is promising to be used as white displays or backlight source in the future as it can be charged by solar energy through additional apparatus free of work and can also be used as an optical sensor to ultraviolet light. A developed organic PV device based on triplet complex Re‐Phen with power conversion efficiency of 4% shows increasing the PV efficiency owing to the existence of a charge transfer absorption .…”

Section: Solar Pv Materials and Technologiesmentioning

confidence: 99%

An overview of the environmental, economic, and material developments of the solar and wind sources coupled with the energy storage systems

et al. 2017

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Summary There is a constant growth in energy consumption and consequently energy generation around the world. During the recent decades, renewable energy sources took heed of scientists and policy makers as a remedy for substituting traditional sources. Wind and photovoltaic (PV) are the least reliable sources because of their dependence on wind speed and irradiance and therefore their intermittent nature. Energy storage systems are usually coupled with these sources to increase the reliability of the hybrid system. Environmental effects are one of the biggest concerns associated with the renewable energy sources. This study summarizes the last and most important environmental and economic analysis of a grid‐connected hybrid network consisting of wind turbine, PV panels, and energy storage systems. Focusing on environmental aspects, this paper reviews land efficiency, shaded analysis of wind turbines and PV panels, greenhouse gas emission, wastes of wind turbine and PV panels' components, fossil fuel consumption, wildlife, sensitive ecosystems, health benefits, and so on. A cost analysis of the energy generated by a hybrid system has been discussed. Furthermore, this study reviews the latest technologies for materials that have been used for solar PV manufacturing. This paper can help to make a right decision considering all aspects of installing a hybrid system. Copyright © 2017 John Wiley & Sons, Ltd.

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Photovoltaics literature survey (No. 55)

Shalav

2007

Progress in Photovoltaics

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Rhenium(I) complex as an electron acceptor in a photovoltaic device

Cited by 10 publications

References 17 publications

Recent Progressive Status of Materials for Solar Photovoltaic Cell: A Comprehensive Review

Recent Progressive Status of Materials for Solar Photovoltaic Cell: A Comprehensive Review

An overview of the environmental, economic, and material developments of the solar and wind sources coupled with the energy storage systems

Photovoltaics literature survey (No. 55)

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