Why Do Electrons Jump into the Conduction Band in Semiconductors?

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Discussion Overview

The discussion revolves around the concept of the conduction band in semiconductors and conductors, particularly focusing on the behavior of electrons as they transition from the valence band to the conduction band. Participants explore the implications of these transitions, the nature of energy levels, and the differences between conductors, semiconductors, and insulators.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants seek clarification on what the conduction band is and where electrons go when they jump from the valence band, questioning whether they occupy higher shells, subshells, or remain in the same place with increased kinetic energy.
  • One participant explains that the conduction band consists of energy levels where electrons can move freely between atoms, indicating that electrons in the conduction band occupy higher energy orbitals compared to those in the valence band.
  • There is a question regarding the overlap of the valence and conduction bands in conductors, with some participants suggesting that this overlap implies electrons gain more energy than in semiconductors and insulators when supplied with the same external energy.
  • Another participant introduces the molecular orbital theory, suggesting that the conduction band can be viewed as a collection of LUMO orbitals, while the valence band corresponds to HOMO orbitals at absolute zero.
  • One participant emphasizes that in conductors, the overlap of bands allows electrons in the valence band to move without needing additional energy, contrasting with semiconductors and insulators.
  • Another participant discusses the collective behavior of atoms in solids, explaining that the formation of bands results in a continuous range of allowed energy states, which differs from the behavior of individual atoms.

Areas of Agreement / Disagreement

Participants express varying degrees of understanding and interpretation regarding the conduction band and its implications. There is no consensus on the specifics of electron behavior in relation to energy levels, and multiple competing views exist regarding the implications of band overlap in conductors versus semiconductors and insulators.

Contextual Notes

Some statements rely on assumptions about background knowledge in solid state physics and molecular orbital theory, which may not be universally understood among all participants. The discussion includes unresolved questions about the nature of energy transitions and the implications of band theory.

gracy
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What exactly is conduction band?electrons from valence band jump into conduction band where they exactly go ,do they go to higher shell or subshell or orbital or stays in same place with more kinetic energy?
 
gracy said:
What exactly is conduction band?electrons from valence band jump into conduction band where they exactly go ,do they go to higher shell or subshell or orbital or stays in same place with more kinetic energy?

The conduction band is a range of energy levels where electrons are free to roam about between multiple atoms. Electrons jumping from the valence band into the conduction band are in a higher energy orbital than before.
 
In conductors valence band and conduction band overlap why?i mean does it mean that in conductors electrons gain more energy than semiconductors and insulators on giving same amount of energy from external source.
.
·
 
Sometimes, depending on the background knowledge, it is useful to think in terms of the molecular orbital theory. In this case, the conduction band can be thought as a bunch of LUMO orbitals, while the valence band is a bunch of HOMO orbitals at zero Kelvins.
 
gracy said:
In conductors valence band and conduction band overlap why?
By definition of conductors.
How much do you know about Brillouin zones? They depend on the crystal structure and allow to estimate the energy ranges of the different bands. The details of the crystal structure then determine if there is overlap or not.
 
gracy said:
In conductors valence band and conduction band overlap why?i mean does it mean that in conductors electrons gain more energy than semiconductors and insulators on giving same amount of energy from external source.
.

No, it just means that the electrons in the valence band can already roam about the material without having to gain any extra energy.
 
gracy said:
In conductors valence band and conduction band overlap why?i mean does it mean that in conductors electrons gain more energy than semiconductors and insulators on giving same amount of energy from external source.
.
·

There is something here that you need to understand. When atoms are group together to form a solid, in many of their properties, they lose their individual behavior! The "atomic orbitals", at least at the low-lying energies, are now governed by a more collective properties. That is why there is a difference between the study of atomic/molecular physics, and solid state physics.

One of the examples where atoms lose their individuality is the formation of these so-called "bands", where in practice, these are a continuous range of allowed energy state. These are not found in isolated, individual atoms. So already the behavior of a solid within such an energy range is very different than the behavior of the individual atoms that make up that solid.

Zz.
 

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