
Electrostatic Properties Simulation of Layered 2D Material Devices
07 Aug 2017   Contributor(s):: Abhinandan Borah, Jamie Teherani
Simulate charge carrier density, potential drop and energy band diagram across any vertical 1D crosssection in a layered heterostructure of 2D semiconductors, graphene and metals.

ECE 606 Lecture 8: Temperature Dependent Carrier Density Concepts of Recombination
27 Sep 2012   Contributor(s):: Gerhard Klimeck

ECE 656 Lecture 2: Sums in kSpace/Integrals in Energy Space
29 Aug 2011   Contributor(s):: Mark Lundstrom
Outline:Density of states in kspaceExampleWorking in energy spaceDiscussionSummary

Lecture 10: Case studyNearequilibrium Transport in Graphene
19 Aug 2011   Contributor(s):: Mark Lundstrom
Nearequilibrium transport in graphene as an example of how to apply the concepts in lectures 18.

Illinois ECE 440: Charge Carrier in Bulk Semiconductors Homework
27 Jan 2010   Contributor(s):: Mohamed Mohamed
This homework covers the effects of doping on carrier concentration in bulk silicon.

ECE 656 Lecture 2: Sums in kspace/Integrals in Energy Space
26 Aug 2009   Contributor(s):: Mark Lundstrom
Outline:Density of states in kspace Example Working in energy space Discussion Summary

Illinois ECE 440 Solid State Electronic Devices, Lecture 5: Intrinsic Material, Doping, Carrier Concentrations
03 Aug 2009   Contributor(s):: Eric Pop, Omar Sobh

Illinois ECE 440 Solid State Electronic Devices, Lecture 7: Temperature Dependence of Carrier Concentrations
30 Dec 2008   Contributor(s):: Eric Pop

Illinois Tools: Effect of Doping on Semiconductors
01 Feb 2008   Contributor(s):: Umberto Ravaioli, Nahil Sobh
This Java applet allows students to visualize the effects of doping on carrier concentration in bulk silicon. It utilizes the nondegenerate Maxwell statistics to explore the effects of doping and temperature on carrier concentration and the energy band diagram.Developed in conjunction with Kent...

Carrier Statistics Lab
08 Jan 2008   Contributor(s):: Saumitra Raj Mehrotra, Abhijeet Paul, Gerhard Klimeck
Calculate the electron & hole density in semiconductors