p-type semiconductor Antonyms

No Synonyms and anytonyms found

Meaning of p-type semiconductor

Wordnet

p-type semiconductor (n)

a semiconductor in which electrical conduction is due chiefly to the movement of positive holes

p-type semiconductor Sentence Examples

  1. A p-type semiconductor is characterized by an excess of positively charged "holes" within its crystal lattice structure.
  2. Boron, gallium, and indium are commonly used dopants to create p-type semiconductors in silicon.
  3. In a p-type semiconductor, the majority charge carriers are holes, which are vacancies in the valence band.
  4. P-type semiconductors exhibit a deficit of free electrons due to the presence of acceptor impurities.
  5. The addition of trivalent impurities to a semiconductor lattice creates p-type doping by accepting electrons from neighboring atoms.
  6. P-type semiconductors are often used in electronic devices such as diodes, transistors, and integrated circuits.
  7. The conductivity of a p-type semiconductor can be enhanced by controlling the concentration of acceptor impurities.
  8. P-type semiconductors play a crucial role in modern electronics by allowing for the manipulation of electrical signals and currents.
  9. The performance of p-type semiconductors can be optimized through precise doping techniques and material engineering.
  10. Understanding the behavior of p-type semiconductors is essential for the design and development of advanced semiconductor devices and technologies.

FAQs About the word p-type semiconductor

a semiconductor in which electrical conduction is due chiefly to the movement of positive holes

No synonyms found.

No antonyms found.

A p-type semiconductor is characterized by an excess of positively charged "holes" within its crystal lattice structure.

Boron, gallium, and indium are commonly used dopants to create p-type semiconductors in silicon.

In a p-type semiconductor, the majority charge carriers are holes, which are vacancies in the valence band.

P-type semiconductors exhibit a deficit of free electrons due to the presence of acceptor impurities.