Understanding Diode Conductivity: The Role of Conduction and Valence Electrons

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In summary, a diode can conduct electricity with a forward-bias voltage of 0.7v, allowing conduction electrons from the n region to move into the p region and vice versa. However, with a reverse-bias voltage, the junction is left barren of any charge carriers, preventing current flow. The conduction electrons in the copper cord can move into the p region, but only in a metal-semiconductor junction. This is explained by the Band Theory of Solids.
  • #1
xunrichard
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As we are told in the books,a diode can be conductive by a forward-bias of about 0.7v.
Thus,current through the n region is formed by the conduction electrons(free electrons in the conduction band) toward the junction.But in the p region,current is formed by the valence electrons from holes to holes toward the positive side of the power source.Obviously,the conduction electrons from the n region can easily become the valence electrons in the p region and the valence electrons in the p region can easily become conduction electrons so they can move into the copper cord(as we suggest)which is between the positive side of the power source and the p region.
So here is the question:why a diode can not be conductive by a reverse-bias voltage?
Can the conduction electrons in the copper cord move into the p region? If not,why?
 

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  • #2
Positive voltage on the N region pulls free electrons away from the junction.

Negative voltage on the P region pulls holes away from the junction. Alternately, you can think that the negative voltage pushes electrons into fill the holes by the junction.

The junction is left barren of any charge carriers, and only the barest trickle of current can flow through.
 
  • #4
Jiggy-Ninja said:
Positive voltage on the N region pulls free electrons away from the junction.

Negative voltage on the P region pulls holes away from the junction. Alternately, you can think that the negative voltage pushes electrons into fill the holes by the junction.

The junction is left barren of any charge carriers, and only the barest trickle of current can flow through.

Thank you! You are right. I think I got it.Thank you.
 
  • #5

1. What is a diode?

A diode is a semiconductor device that allows current to flow in only one direction. It consists of two terminals, an anode and a cathode, and is typically used for converting AC to DC current or for regulating voltage.

2. How does a diode work?

A diode works by utilizing a p-n junction, which is a boundary between a positively doped (p-type) and negatively doped (n-type) semiconductor material. When a voltage is applied to the diode in the forward direction, the p-n junction conducts electricity. However, when a voltage is applied in the reverse direction, the diode blocks the flow of current.

3. What are some common applications of diodes?

Diodes have a wide range of applications, including rectification (converting AC to DC), voltage regulation, signal demodulation, and protection against reverse polarity. They are also used in electronic circuits such as power supplies, amplifiers, and radios.

4. How do I choose the right diode for my project?

Choosing the right diode depends on the specific requirements of your project. Factors to consider include the maximum voltage and current ratings, switching speed, and type of diode (such as a standard diode, Zener diode, or Schottky diode). It is important to consult with a datasheet or seek guidance from a knowledgeable source when selecting a diode.

5. Can a diode be damaged or fail?

Yes, a diode can be damaged or fail due to excessive voltage or current, overheating, or incorrect installation. It is important to follow the specifications and guidelines for proper use and handling of diodes to prevent damage or failure.

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