How Does a Solar Cell Operate in Forward Bias?

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A solar cell operates in forward bias by allowing electrons to flow from the N-side to the P-side, where they recombine with holes, but this process is less intuitive than in a standard diode. In photovoltaic operation, the junction remains forward-biased, diverting diode current from the load and typically operating around 0.45V at room temperature. The efficiency of solar cells is limited by the requirement for photons to have energies greater than 1.12eV to generate electron-hole pairs, with sunlight providing even higher energies. Potential improvements for solar cells include using materials with better energy gaps suited for sunlight, stacking materials to capture different light energy slices, and concentrating light to enhance current and voltage while reducing semiconductor area. Cooling the cells is also crucial, especially when sunlight is concentrated, to improve overall efficiency.
macca77
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My question is basically how can a solar cell operate in forward bias?

A normal diode in forward bias (with a battery connected) drives electrons from the N-side towards the pn junction where they are continuously recombining with holes (reducing the depletion zone and allowing for the flow of current).

A solar cell seems less intuitive though. When in forward bias the electrons travel the opposite way. They go out the external cicuit which connects to the p-side, where the recombine with holes.

It seems strange to me that both of these are essentially in "forward bias" however the electrons are esentially traveling the opposite way, similar to that of a diode in reverse bias.
 
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The junction is forward-biased in normal photovoltaic operation, and the resulting diode current is diverted from the load so it should stay small, meaning that a silicon PN cell must be operated around 0.45V at room temperature, even less at heat.

Though, photons must have >1.12eV to produce a pair, and Sunlight has even higher energies. This explains why Solar cells are inefficient. The quantum photon-to-pair conversion alone would be extremely efficient.

Improvements include:
- Gap energies better matched to Sunlight, like InSb or GaAs materials ( spacecraft prices)
- Stacks of materials that harvest each one slice of light energy
- Concentrated light produce more concentrated current, allowing a higher voltage. Better: it saves semiconductor area.
- Cool the cells. Especially if Sunlight is concentrated.
 

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