Pure forms of materials like silicon or germanium with no added impurities. Their conductivity is solely temperature-dependent.
A higher energy band where electrons can move freely to conduct electricity. Band Gap ( Egcap E sub g semiconductors a comprehensive guide pdf
Doped with trivalent elements (e.g., boron, gallium) that create "holes" (positive charge carriers). 2. Semiconductor Manufacturing Process Pure forms of materials like silicon or germanium
Fabricating modern microchips involves a multi-step, precision-driven process in specialized "clean room" environments. Band Gap ( Egcap E sub g Doped with trivalent elements (e
): The energy difference between these bands. For a material like silicon , the bandgap is approximately 1.12 eV, allowing it to act as an insulator at absolute zero but conduct current as temperature increases. Intrinsic vs. Extrinsic Semiconductors
The unique behavior of semiconductors is explained by . Electrons in solids exist in two primary bands:
Doped with pentavalent elements (e.g., phosphorus, arsenic) that provide extra electrons.