jeheron Posted May 7, 2007 Posted May 7, 2007 Is there any observable difference between the physical and electrical properties of n-type semiconductor materials and p-type semiconductor materials?
brockrhodes Posted May 7, 2007 Posted May 7, 2007 Do you mean in terms of why we dope to make n-type or p-type semiconductors, or trends in the materials themselves based on the type?
jeheron Posted May 7, 2007 Author Posted May 7, 2007 In terms of the proerties of the materials themselves. I am asking the question to better understand each individual kind of semiconductor matieral before moving onto p-n junctions and npn and pnp interfaces.
Klaynos Posted May 7, 2007 Posted May 7, 2007 The density of states is different, so this leads to differences in the properties, but I can't really recall what these are right now, and I don't have the time to go check my notes :| But more importantly they both act as increased charge carrier semiconductors...
theCPE Posted May 7, 2007 Posted May 7, 2007 N-type (nfets, nmos, etc) utilize electrons as charge carriers. P-type (pfets, pmos, etc) utilize holes as charge carriers. Holes are not as mobile or effecient at transporting charge and therefore n-type semiconductors are "stronger" or "faster". For example in CMOS, the width of a pfet is always made larger than a corresponding nfet to create equal pull up and pull down strengths.
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now