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What are organic solar cells?

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Organic solar cells - otherwise known as organic photovoltaic cells (OPV) -  are the latest advancement in solar cell technology, and one quickly gaining the attention of industry professionals. This is mainly due to their high performance, unprecedented ability to absorb light from the sun, and the technology's amazing versatility.

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Unlike traditional crystalline solar cells which use silicon as an absorber, organic solar cells use a polymer or small molecule cell made from carbon-based materials and organic electronics. This allows the creation of an extremely lightweight, flexible, and thinly-filmed solar cell. With this device structure, organic solar cells are far more durable and able to cover a much larger area than traditional solar cells.

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Organic solar cells are a relatively new innovation but are already showing promising signs for the industry. With organic solar cells, low-cost manufacturing, and new research and development, many industry professionals see it as the future of the solar energy industry.

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How do organic solar cells work?

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Organic solar cells follow the same process as both monocrystalline and polycrystalline silicon solar cells. Each of these forms of solar cells produces electricity through what is known as the photovoltaic effect.

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The photovoltaic effect is the direct conversion of light into electricity at an atomic level. The first stage of this process is the light absorption by the solar cell in the form of little bundles of energy, known as photons. The solar cell then knocks the photons causing electrons to come loose from the semiconducting material, after which they are received by electron acceptors.

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Once the electrons are loose, they’re then able to flow throughout the solar cell and create an electrical current through charge carriers. That electric current is then captured and transferred throughout your home.

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For both a silicon cell and an organic solar cell, the photovoltaic process is the same. The only difference is the semiconducting material in each of the solar cells. Where a traditional solar cell uses silicon, organic solar cells use a carbon-based compound as a semiconductor.

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Pros of organic solar cells

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Organic solar cells provide many benefits for consumers, manufacturers, and installers. The number of benefits of organic solar cells is expected to increase greatly as the technology is further developed.

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Following are the pros of organic solar cells:

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• Flexible and lightweight structure: Organic solar cells are very flexible and adaptive compared to traditional solar cells. This means they’re able to utilize a large area and be adapted to fit on many different substrates. Their flexible structure also makes the organic solar cells more durable compared to other solar modules.
• Low manufacturing cost: With the soluble structure of organic molecules, manufacturers can use a roll-to-roll system which is less expensive and more environmentally friendly than other manufacturing processes.
• Abundance of materials: There is a very large supply of building block materials for organic solar cells. This should reduce supply and price constraints, further increasing your solar savings.

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Cons of organic solar cells

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The research and development of organic solar cells are still in their early stages compared to silicon solar cells. Due to that, there are still some concerns with organic cells that are yet to be resolved.

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Following are the cons of organic solar cells:

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• Power conversion efficiency: the cell efficiency of OPVs is far below that of traditional silicon cells. Silicon cells will typically reach an efficiency of between 20% – 25%. Meanwhile, organic solar cells can currently only reach between 8%-12%.
• Lifespan: the lifespan of organic solar cells is far less compared to traditional solar cells. This is due to the organic materials degrading at a much faster rate when exposed to the environment.

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Organic photovoltaic cell components

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Both organic solar cells and traditional silicon cells are structured almost identically. As mentioned previously, the only structural difference between the two cell types is the material that acts as the organic semiconductor (OSC). In traditional solar cells, this layer is built from crystalline silicon. Whereas organic cells use a thin-film active layer of carbon-based compounds on top of plastic.

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Structural components of an organic solar cell. Image source: NREL Transforming Energy

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Future of organic solar cells

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There is extensive research ongoing into the optimization of polymer solar cells on a large-scale basis. Because the cells have a thin, flexible, and semi-transparent structure, they can be applied to areas where traditional cells cannot. This is why OPV technology holds so much promise: it could allow surfaces such as windows, cars, or buildings to effectively generate solar power. 

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Scientists have thus far fabricated high-efficiency organic solar cells that in controlled conditions can perform at over 18%. However, these results and energy levels have yet to be replicated in real-world conditions. Furthermore, the 18% efficiency is also still behind that of silicon technology which has real-world efficiencies of up to 23%.

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Most of the research and development in organic solar cells is focused on improving the device performance in terms of efficiency values, and long-term stability. These two aspects are currently the elements holding organic cell technology back from the market. 

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With current limitations in OPV technology, it may take a few years before solar panels built with organic solar cells hit the market. Therefore, if you’re interested in solar, we recommend you look at installing traditional silicon solar panels, which offer an unmatched return in most states.

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Ready for solar? Contact Lifestyle Solar now for the solar service in Fresno, CA and nearby. 

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