Photo-Rechargeable Electric Energy Storage Systems

Schmidt Daniel; Hager Martin D.; Schubert Ulrich S.

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Photo-Rechargeable Electric Energy Storage Systems

机译：光可充电电能存储系统

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The global energy demand is increasing at the same time as fossil fuel resources are dwindling. Consequently, the search for alternative energy sources is a major topic worldwide. Solar energy is one of the most promising, effective and emission-free energy sources. However, the energy has to be stored to compensate the fluctuating availability of the sun and the actual energy demand. Photo-rechargeable electric energy storage systems may solve this problem by immediately storing the generated electricity. Different combinations of solar cells and storage devices are possible. High efficiencies can be achieved by the combination of dye-sensitized solar cells (DSSC) and capacitors. However, other hybrid devices including DSSCs or organic photovoltaic systems and redox flow batteries, lithium ion batteries and metal air batteries are playing an increasing role in this research field. This Progress Report reviews the state of the art research of photo-rechargeable batteries based on organic solar cells, as well as storage modules.

机译：随着化石燃料资源减少，全球能源需求同时增加。因此，寻找替代能源是全球的主要主题。太阳能是最有前途，有效和无排放的能源之一。然而，必须储存能量以补偿太阳的波动和实际能量需求。光可再充电的电能存储系统可以通过立即存储产生的电力来解决这个问题。太阳能电池和存储装置的不同组合是可能的。通过染料敏化太阳能电池（DSSC）和电容器的组合可以实现高效率。然而，其他混合装置包括DSSC或有机光伏系统和氧化还原流量电池，锂离子电池和金属气电池在该研究领域发挥着越来越大的作用。此进度报告审查了基于有机太阳能电池的光可充电电池以及储存模块的最新技术。

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《Advanced energy materials》 |2016年第1期|1500369.1-1500369.11|共11页
作者
Schmidt Daniel; Hager Martin D.; Schubert Ulrich S.;
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Univ Jena Lab Organ & Macromol Chem IOMC D-07743 Jena Germany|Univ Jena Ctr Energy & Environm Chem Jena D-07743 Jena Germany;

Univ Jena Lab Organ & Macromol Chem IOMC D-07743 Jena Germany|Univ Jena Ctr Energy & Environm Chem Jena D-07743 Jena Germany;

Univ Jena Lab Organ & Macromol Chem IOMC D-07743 Jena Germany|Univ Jena Ctr Energy & Environm Chem Jena D-07743 Jena Germany;

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机译：透明导电氧化物和无PT无柔性光可充电电能存储系统
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4. Energy Storage What's next for the grid? Role and value of energy storage in the future GB electricity system - (PPT) [C] . Goran Strbac Energy Storage (Conference) . 2015

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6. Solar Cells: Conversion of Solar Energy into Electrical Energy Storage: Supercapacitor as an Ultrafast Energy‐Storage Device Made from Biodegradable Agar‐Agar as a Novel and Low‐Cost Carbon Precursor (Global Challenges 10/2018) [O] . Manavalan Vijayakumar, Jyothirmayi Adduru, Tata Narasinga Rao, 2018

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Photo-Rechargeable Electric Energy Storage Systems

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