Semiconductors + p-n junction doubt

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Electrons from the N region diffuse to the P region, combining with holes to form negative ions, which leaves behind positive ions in the P region. Holes are not positively charged; they represent vacancies in the lattice where electrons are absent, and their presence does not imply a net positive charge. When electrons recombine with holes, the N region loses electrons and becomes positively charged, while the P region gains electrons and becomes negatively charged, maintaining overall charge neutrality. The term "recombination" refers to the process where electrons fill holes, effectively pairing them and resulting in a neutral state. Understanding this mechanism is crucial for grasping semiconductor behavior.
HyDraZin3
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When electrons from N region diffuse to P region, the electrons combine with holes to form a -ve negative ion leaving behind a +ve ion in P region.So, my doubt is how the holes accept the electrons and get a negative charge because as the holes are positively charged, when they accept the electron which is negatively charged the net charge should be neutral.


THANKS
 
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The holes do not have a positive charge, if they are induced by your doping. The holes are just positions in the lattice where no electron is present. As you have a different nucleus with a different charge there, doping gives you holes without any charges.
 
can you tell me the reason why holes do not have a positive charge on induced doping?
 
HyDraZin3 said:
When electrons from N region diffuse to P region, the electrons combine with holes to form a -ve negative ion leaving behind a +ve ion in P region.So, my doubt is how the holes accept the electrons and get a negative charge because as the holes are positively charged, when they accept the electron which is negatively charged the net charge should be neutral.


THANKS

The net charge of the whole structure (p and n regions) is indeed neutral.
The point is that electrons from the n region combine with holes from the p region (so not from the same region). Before recombination both regions were neutral.
As a consequence of recombination, region n looses some electrons so from neutral becomes positive. Region p gains some electrons (or looses some holes) so it becomes negative. Overall, the n and p regions together have zero charge.
 
HyDraZin3 said:
can you tell me the reason why holes do not have a positive charge on induced doping?
Imagine a perfect, neutral lattice of silicon. Now, at a single position, remove one proton from a nucleus and one electron. It is still neutral, as you removed one positive charge and one negative charge. The silicon atom became an aluminium atom, and as you removed one electron there is a position where a new electron from somewhere else can fit in.
You have a hole, but no charge. If an electron moves to this position, you have a filled hole, and a negative charge.
 
Thank you all for your help but i have a question:-In wikipedia it is stated that electrons recombines with holes, exactly what does recombination mean, do electrons and holes pair together?
 

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