Artificial Retina Devices Are Mainly Nan rod Carbon Nanotube Biomimetic Films Along With Accessory Devices Such As Transmitter And Video Processing Unit

                                                               Artificial Retina 

 Retinal disorders are ailments that affect the retina, the tissue layer at the back of the eye. The Artificial retina contains nerve cells that receive and transmit visual information to the brain. Diseases that affect the retina can cause major eye problems, including blindness, if not treated. One retinal issue occurs when the Artificial Retina separates from the eye, causing sudden vision abnormalities such as flashing lights or dots. Diabetic retinopathy is another type of retinal disease in which the blood vessels in the rear of the eye weaken. Macular degeneration is a type of retinal illness in which the Centre of the artificial retina begins to degrade, resulting in blurred central vision in older persons. Some of these illnesses have no cure. Although injections and light therapies can help restore some vision or delay the rate of sight loss in some people, there can be negative effects, and other people may not notice any change. Implants are currently in clinical testing, although there are worries that their rigidity may cause long-term eye strain. The technology is ultra-thin and flexible, allowing it to mimic the natural curve of the retina. It is created from the 2D materials grapheme and molybdenum disulphide. The artificial retina successfully resembles the structure and properties of the human eye.

The Artificial retina (Latin for "net") is the innermost, light-sensitive layer of tissue in most vertebrates and some mollusks' eyes. The optics of the eye produce a focused two-dimensional image of the visual world on the retina, which then analyses that image within the retina and transmits nerve impulses to the visual cortex to provide visual perception. The Artificial retina performs a function that is similar to that of a camera's film or image sensor in many ways. The neural retina is made up of multiple layers of neurons that are linked together by synapses and is protected by an outer layer of pigmented epithelial cells.

The photoreceptor cells, which are divided into two categories, are the principal light-sensing cells in the artificial retina. As well as cones Rods are mostly used in low-light situations and provide monochromatic vision. Cones work in well-lit environments and are responsible for color perception via a variety of opines, as well as high-acuity vision used for tasks such as reading. The photosensitive ganglion cell, a third type of light-sensing cell, is vital for the entrainment of circadian rhythms and reflexive reactions such as the pupillary light reflex.

Retinal disorders are ailments that affect the retina, the tissue layer at the back of the eye. The Artificial retina contains nerve cells that receive and transmit visual information to the brain. Diseases that affect the retina can cause major eye problems, including blindness, if not treated. One retinal issue occurs when the Artificial Retina separates from the eye, causing sudden vision abnormalities such as flashing lights or dots. Diabetic retinopathy is another type of retinal disease in which the blood vessels in the rear of the eye weaken. Macular degeneration is a type of retinal illness in which the Centre of the artificial retina begins to degrade, resulting in blurred central vision in older persons. Some of these illnesses have no cure. Although injections and light therapies can help restore some vision or delay the rate of sight loss in some people, there can be negative effects, and other people may not notice any change. Implants are currently in clinical testing, although there are worries that their rigidity may cause long-term eye strain. The technology is ultra-thin and flexible, allowing it to mimic the natural curve of the retina. It is created from the 2D materials grapheme and molybdenum disulphide. The artificial retina successfully resembles the structure and properties of the human eye.

The Artificial retina (Latin for "net") is the innermost, light-sensitive layer of tissue in most vertebrates and some mollusks' eyes. The optics of the eye produce a focused two-dimensional image of the visual world on the retina, which then analyses that image within the retina and transmits nerve impulses to the visual cortex to provide visual perception. The Artificial retina performs a function that is similar to that of a camera's film or image sensor in many ways. The neural retina is made up of multiple layers of neurons that are linked together by synapses and is protected by an outer layer of pigmented epithelial cells.

The photoreceptor cells, which are divided into two categories, are the principal light-sensing cells in the artificial retina. As well as cones Rods are mostly used in low-light situations and provide monochromatic vision. Cones work in well-lit environments and are responsible for color perception via a variety of opines, as well as high-acuity vision used for tasks such as reading. The photosensitive ganglion cell, a third type of light-sensing cell, is vital for the entrainment of circadian rhythms and reflexive reactions such as the pupillary light reflex.