Explain the terms n-type silicon, p-type silicon, and p-n junction. Are p- and n-type semiconductors electrically...

Differentiate between extrinsic n-type and p-type semiconductors; discuss their importance in a p-n junction diode.

Differentiate between extrinsic n-type and p-type semiconductors; discuss their importance in a p-n junction diode.

The p-type region of a silicon p-n junction is doped with 1016 boron atoms per cubic...

The p-type region of a silicon p-n junction is doped with 1016 boron atoms per cubic centimeter, and the n-type region is doped with 1018 phosphorus atoms per cubic centimeter. Assume a step p-n junction and that all doping atoms are ionized. The intrinsic carrier concentration in silicon at 300K is 1.5∗1010cm−3 . What are the electron and hole concentrations (in cm−3 ) in the p-type and n-type regions at thermal equilibrium? Hole concentration in p-type region (in 1016cm−3 )...

A business manager wants to provide a wider range of p- and n-type semiconductors as a...

A business manager wants to provide a wider range of p- and n-type semiconductors as a strategy to enhance sales. You are the lead materials engineer assigned to communicate with this manager. How would you explain why there are more ways to build a p-type semiconductor from silicon than there are ways to build an n-type semiconductor from silicon?

10. Sketch a silicon p-n junction, showing the depletion region, band bending, and the Fermi level...

10. Sketch a silicon p-n junction, showing the depletion region, band bending, and the Fermi level in the absence of light or applied potential. In the dark, the p-n junction acts as a rectifier. (a) Which way do electrons and holes flow most easily in the dark? (b) Does the built in electric field increase or decrease under forward bias? (c) In the light, the junction acts as a photodiode. In this case, under short circuit conditions, do electrons flow...

Describe the properties of n-type and p-type semiconductors

Describe the properties of n-type and p-type semiconductors

Design an ideal abrupt silicon PN-junction at 300 K such that the donor impurity concentration Nd...

Design an ideal abrupt silicon PN-junction at 300 K such that the donor impurity concentration Nd (in cm?3) in n-side is Nd = 5×1015/cm3 and the acceptor impurity concentration Na in the p-side is Na = 715 ×1015/cm3. Given: the diode area A = 2×10?3 cm2, ni = 1010/cm3, ?n = 10?8 s and ?p = 10?7 s Determine the following when a forward bias of 0.6 V is applied to the diode: 1. What are the values (in ?m)...

Imagine a solar cell where the p-n junction diode is kept in the sun. Upon absorbing...

Imagine a solar cell where the p-n junction diode is kept in the sun. Upon absorbing su light, electron hole pairs are generated inside the depletion region around the junction. You have a Silicon p-n junction diode where the Fermi energy on the p-doped side is 0.02 ev above the upper edge of the valence band and the Fermi energy is 0.01 eV below the lower edge of the conduction band in the n-doped side. The band gap in Silicon...

Sketch the equilibrium band structure of a P+N junction and, in point form, explain why this...

Sketch the equilibrium band structure of a P+N junction and, in point form, explain why this structure predicts the rectification characteristic associated with diodes.

A silicon step junction is doped such that Ef=Ev-2kT on the p-side and Ef=Ec-Eg/4 on the...

A silicon step junction is doped such that Ef=Ev-2kT on the p-side and Ef=Ec-Eg/4 on the n-side. (a) Draw the equilibrium energy band diagram (b) Determine the built-in voltage (Vbi) at room temperature

An n-type silicon (Si) is produced by doping with phosphorus (P). The electrical conductivity measurement of...

An n-type silicon (Si) is produced by doping with phosphorus (P). The electrical conductivity measurement of the doped Si shows the charge-carrier concentration to be 3.091 x 1017 cm-3 at room temperature. Calculate the doping level of P and express your answer in units of gram of P per kilogram of Si. I saw some explanation for this question answered on here but I still don't understand it. Thanks!