photoconductivity Antonyms

No Synonyms and anytonyms found

Meaning of photoconductivity

Wordnet

photoconductivity (n)

change in the electrical conductivity of a substance as a result of absorbing electromagnetic radiation

photoconductivity Sentence Examples

  1. Photoconductivity refers to the phenomena where the electrical conductivity of a semiconductor material increases when exposed to light.
  2. The photoconductivity effect is widely used in optoelectronic devices such as photodiodes, phototransistors, and solar cells.
  3. The spectral response of a photoconductor is determined by the bandgap energy of the semiconductor material used.
  4. Photoconductivity is influenced by factors like the intensity of light, wavelength, and temperature of the semiconductor.
  5. The lifetime of the photoexcited carriers plays a crucial role in determining the photoconductivity response time.
  6. Amorphous semiconductors exhibit higher photoconductivity compared to crystalline semiconductors due to their disordered structure.
  7. Photoconductivity can be utilized for sensing light intensity, color, and position in various applications.
  8. Organic semiconductors have gained attention in photoconductivity research due to their tunable properties and flexibility.
  9. The photoconductivity measurement technique provides insights into the electronic properties and carrier dynamics in semiconductors.
  10. The study of photoconductivity has led to advancements in understanding the behavior of materials under illumination and its practical applications in optoelectronics.

FAQs About the word photoconductivity

change in the electrical conductivity of a substance as a result of absorbing electromagnetic radiation

No synonyms found.

No antonyms found.

Photoconductivity refers to the phenomena where the electrical conductivity of a semiconductor material increases when exposed to light.

The photoconductivity effect is widely used in optoelectronic devices such as photodiodes, phototransistors, and solar cells.

The spectral response of a photoconductor is determined by the bandgap energy of the semiconductor material used.

Photoconductivity is influenced by factors like the intensity of light, wavelength, and temperature of the semiconductor.