What are the ideal materials for the fabrication of a solar cell? Give the criteria for their selection.
(N/A) Semiconductors with a band gap close to $1.5 \text{ eV}$ are ideal materials for solar cell fabrication.
These materials include:
$Si$ $(E_{g} = 1.1 \text{ eV})$,
$GaAs$ $(E_{g} = 1.43 \text{ eV})$,
$CdTe$ $(E_{g} = 1.45 \text{ eV})$,
$CuInSe_{2}$ $(E_{g} = 1.04 \text{ eV})$,etc.
The following are the important criteria for selecting the right materials for fabricating a solar cell:
$(1)$ Band gap $E_{g}$ should be in the range of $1.0 \text{ eV}$ to $1.8 \text{ eV}$.
$(2)$ High optical absorption,approximately $10^{4} \text{ cm}^{-1}$.
$(3)$ High electrical conductivity.
$(4)$ The raw material should be easily available.
$(5)$ The cost of the material should be low.
These materials include:
$Si$ $(E_{g} = 1.1 \text{ eV})$,
$GaAs$ $(E_{g} = 1.43 \text{ eV})$,
$CdTe$ $(E_{g} = 1.45 \text{ eV})$,
$CuInSe_{2}$ $(E_{g} = 1.04 \text{ eV})$,etc.
The following are the important criteria for selecting the right materials for fabricating a solar cell:
$(1)$ Band gap $E_{g}$ should be in the range of $1.0 \text{ eV}$ to $1.8 \text{ eV}$.
$(2)$ High optical absorption,approximately $10^{4} \text{ cm}^{-1}$.
$(3)$ High electrical conductivity.
$(4)$ The raw material should be easily available.
$(5)$ The cost of the material should be low.
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The current in the forward bias is known to be more $(\sim mA)$ than the current in the reverse bias $(\sim \mu A)$. What is the reason then to operate the photodiodes in reverse bias?
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View SolutionGiven below are two statements: one is labelled as Assertion $A$ and the other is labelled as Reason $R$.
Assertion $A$: Photodiodes are preferably operated in reverse bias condition for light intensity measurement.
Reason $R$: The current in the forward bias is more than the current in the reverse bias for a $p-n$ junction diode.
In the light of the above statements,choose the correct answer from the options given below:
Assertion $A$: Photodiodes are preferably operated in reverse bias condition for light intensity measurement.
Reason $R$: The current in the forward bias is more than the current in the reverse bias for a $p-n$ junction diode.
In the light of the above statements,choose the correct answer from the options given below:
For detecting light intensity,we use:
For an $LED$ to emit light in the visible region of the electromagnetic spectrum,it can have an energy band gap in the range of (Planck's constant,$h = 6.6 \times 10^{-34} \ J s$ and speed of light,$c = 3 \times 10^8 \ m s^{-1}$ in vacuum).
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