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About 10 results
  • 6.1.5: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Tennessee_State_University/Inorganic_Chemistry_(CHEM_5000_4200)/01%3A_Map-_Inorganic_Chemistry-I_(LibreTexts)/06%3A_The_Crystalline_Solid_State/6.01%3A_Molecular_Orbitals_and_Band_Structure/6.1.05%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 11.6: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/CSU_San_Bernardino/CHEM_4300%3A_Inorganic_Chemistry_(Mink)/11%3A_Electronic_Properties_of_Materials_-_Superconductors_and_Semiconductors/11.06%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 8.6: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Barry_University/CHE360%3A_Inorganic_Chemistry/08%3A_The_Crystalline_Solid_State/8.06%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 20.3: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Williams_School/Advanced_Chemistry/20%3A_Conductivity_and_Magnetism/20.03%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 15.3: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Williams_School/Chemistry_II/15%3A_Conductivity_and_Magnetism/15.03%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 9.1.6: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Tennessee_State_University/CHEM_4210%3A_Inorganic_Chem_II_(Siddiquee)/09%3A_Inorganic_Materials_and_Nanotechnology/9.01%3A_Electronic_Properties_of_Materials_-_Superconductors_and_Semiconductors/9.1.06%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 7.1.5: Semiconductor p-n Junctions
    https://chem.libretexts.org/Bookshelves/Inorganic_Chemistry/Inorganic_Chemistry_(LibreTexts)/07%3A_The_Crystalline_Solid_State/7.01%3A_Molecular_Orbitals_and_Band_Structure/7.1.05%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 6.5.5: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Ursinus_College/CHEM322%3A_Inorganic_Chemistry/06%3A_Solid_State_Chemistry/6.05%3A_Band_Theory_and_Conductivity/6.5.05%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 9.10: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/UW-Whitewater/Chem_260%3A_Inorganic_Chemistry_(Girard)/09%3A_Electronic_Properties_of_Materials_-_Superconductors_and_Semiconductors/9.10%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.
  • 5.9.5: Semiconductor p-n Junctions
    https://chem.libretexts.org/Courses/Earlham_College/CHEM_361%3A_Inorganic_Chemistry_(Watson)/05%3A_Solid_State_Chemistry/5.09%3A_Electronic_Properties_of_Materials_-_Superconductors_and_Semiconductors/5.9.05%3A_Semiconductor_p-n_Junctions
    For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electri...For example, on the n-side of a silicon p-n junction, the positively charged dopants are P + ions and on the p-side the negatively charged dopants are B - . The presence of these uncompensated electrical charges creates an electric field, the built-in field of the p-n junction. The electric field, which is created in the depletion region by electron-hole recombination, repels both the electrons (on the n-side) and holes (on the p-side) away from the junction.

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