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Photocell

“A photocell, also known as a photo resistor, is a device that changes its conductivity when light shines on it.”

A photocell is any of a wide range of sensors that react based on the presence of light or electromagnetic energy. A photocell can be found in many different forms, from solar panels that use light to generate electricity, to photo resistors, which shift in resistance based on how much light is present. The photocell is one of the most important modern technological advancements, allowing for a whole range of new technologies to be created.

Structure:

The photo cell or photo tube consist of a evacuated glass tube fitted with anode plate and a concave metallic cathode of a appropriate surface

Types of Photocell

1. Photo resistors

One of the most common types of photocell is the photo resistor. A photo resistor is a device which is constructed out of semiconductor of high resistance. When enough light hits the semiconductor, it absorbs enough photons that the electrons already present have enough energy to conduct, lowering resistance. A photo resistor may be either intrinsic, such as those made of silicon, in which case it will require a fair amount of light to lower the resistance, or extrinsic, with a dopant added to lower the amount of energy needed to trigger a reaction, making them highly sensitive.

2. Photovoltaic cell, or Solar cell

Another widely-seen form of photocell is the type of photocell known as a photovoltaic cell, or solar cell. These utilize the photovoltaic effect, where electrons are released when electromagnetic radiation strikes the surface, to generate electricity. This electricity is then generally stored in a battery system and can be used as a source of renewable energy.

3. Chemical Photocell

One of the most basic types of photocell is a chemical photocell. This is the type of photocell found in a non-digital camera, in the form of a photographic plate, where light striking the plate causes a silver halide molecule to split into both a halogen atom and a metallic silver atom, which can then be used to create an image. Modern cameras use charge-coupled devices instead, which are another type of photocell, to achieve much the same result by transferring electric charge instead of splitting silver.

Some other types of photocell focus more on measuring specific types of energy. Optical detectors, for example, act as advanced thermometers. They take in electromagnetic radiation and react to the increase in energy in set ways that can determine exactly the increase in ambient temperature, or can simply measure how much light is striking the surface. Other types of photocell, known as cryogenic detectors, are so sensitive that they can be used to detect the presence of a single tiny bit of electromagnetic radiation, such as a single x-ray, or a single infra-red photon.