Semiconductor Notation: P-Type, N-Type Band Gap Materials

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Semiconductors like aluminum gallium arsenide are created by doping a base crystal to form p-type and n-type materials. Structural differences are generally avoided to prevent cracks and flaws that can disrupt electronic performance. However, some research intentionally introduces structural variations to explore new characteristics, although this may disqualify the material from being classified as a true crystal. The discussion highlights the balance between maintaining geometric integrity and experimenting with novel combinations in semiconductor research. Overall, the conversation emphasizes the complexities involved in semiconductor material development.
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If you research the materials semiconductors are made of you will find things such as aluminum gallium arsenide. How do you determine what the p-type and n-type are made of? Shouldn't there be a structural difference in order to create band gap?
 
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You want to avoid differences to the geometric structure if you can - or you get cracks and flaws in the crystal that mess up the electronics.

To make a specific type of semiconductor you start with the base crystal and then dope it.
The odd mixtures come from trying out different combinations and crystal growth techniques.
 
Most may want to avoid differences in geometric structure. My graduate research was about purposefully introducing differences in structure and exploring the novel characteristics that resulted. But then, our material no longer technically qualified as a "crystal".

To be clear, nothing I or my group was making was a commercial product. It was science, not engineering. :p
 
Neat - my graduate research was exactly the opposite - combining crystals with almost the same lattice constant and exploring the novel stuff that happened :)
 

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