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Blue light of wavelength 475 nm falls on a silicon photocell whose band gap is 1.1 ev. what is the maximum fraction (as percent) of the light’s energy that can be converted into…

Blue light of wavelength 475 nm falls on a silicon photocell whose band gap is 1.1 ev. what is the maximum fraction (as percent) of the light’s energy that can be converted into…
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blue light of wavelength 475 nm falls on a silicon photocell whose band gap is 1.1 ev. what is the maximum fraction (as percent) of the light’s energy that can be converted into electrical power?

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User Lin
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Final answer:

The maximum fraction of the blue light's energy that can be converted into electrical power on a silicon photocell is 32%.

Step-by-step explanation:

In this question, the student wants to calculate the maximum fraction of the blue light's energy that can be converted into electrical power on a silicon photocell whose band gap is 1.1 eV. To do this, we can refer to Figure 13.5, which shows the energy budget in a silicon PV cell. We can see that the maximum theoretical efficiency is 32%.



Therefore, the maximum fraction of the blue light's energy that can be converted into electrical power is 32%.

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User Rayleone
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