Electrical conductivity of a semiconductor

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SUMMARY

The electrical conductivity of silicon doped with 3 x 1024 aluminum atoms at 135°C is calculated to be 3360 (Ωm)-1. The formula used for this calculation is σ=|e|(ne*μe+nh*μh), where e is the charge of an electron (1.6 x 10-19 C), μe is the electron mobility (0.03 m2/V-s), and μh is the hole mobility (0.007 m2/V-s). The relationship between electron concentration (ne) and hole concentration (nh) is established using the intrinsic carrier concentration of silicon, ni=1.5 x 1010 cm-3.

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Plasmosis1
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Homework Statement



Estimate the electrical conductivity, at 135°C, of silicon that has been doped with 3 x 1024 per meter cubed of aluminum atoms. Assume values for electron and hole mobilities of 0.03 and 0.007 m2/V-s, respectively.

Homework Equations



σ=|e|(nee+nhh)

σ=conductivity
e=1.6*10-19
ne=number of free electrons
μe=electron mobility
nh=number of holes
μh=hole mobility

The Attempt at a Solution



So far I have this:
σ=1.6*10-19*(ne*0.03+3*1024*0.007)

I don't know how to find ne. Is it the same value of nh?
 
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Plasmosis1 said:
I don't know how to find ne. Is it the same value of nh?
Then doping would be pointless - no.
You should have some formula relating those two numbers (it also includes the temperature). Then the density of aluminium atoms (which type of doping is that?) allows to determine both.

So far I have this:
σ=1.6*10-19*(ne*0.03+3*1024*0.007)
Don't forget the units.
 
The only other formula that I can think of is n=n0exp(-Eg/2kT)
But I can't use that because I don't know n0 or Eg.
 
Last edited:
ne*nh = ?

You will have to look up at least one material constant of silicon.
 
Is the equation
ne*nh=(1.5x1010cm-3)2
where ni=1.5x1010cm-3

So ne=1.5*1010*1003m-3/(3*1024)=1.5*1016m-3
∴ σ=1.6*10-19*(1.5*1016*0.03+3*1024*0.007)=3360 (Ωm)-1

Is that right?
 
Where does the first equation come from?

The other equations look good (apart from formatting issues).
 
No one actually said this but because ne<<nh you can just neglect ne.

The original equation becomes:
σ=|e|*nhh
=1.6*10-19*3*1024*.007
=3360 (Ωm)-1
 

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