What are organic electronics?
Organic electronics have carbon -based molecules or carbon -based polymers created into a supple substance that can make a current. Although the chemist first discovered in 1862, scientists did not go to the ingredients and processes needed to create polymer electronics until the 20th century. Manufacturers claim that ecological electronics are cheap to produce and provide greater versatility than standard electronic components.
Polymers and plastics are more often associated with insulating or resistant of electric current than with an electric charge. Starting from the age of 20, scientists invented ways of manipulating with molecular structures containing organic or carbon and creating a number of individual and double chemical bindings. The technicians then add or subtract electrons by doping with bromine, chlorine or iodine to increase conductivity. Some conductive polymers begin as acetylene, anilines or thiophene, and then uelektrochemical or chemical polymerizationNdergo processes. These substances become polyacethylene, polyanillin and polythiofen.
Carbon -based polymers are usually liquid or semi -deciduous and can be applied using methods similar to ink jets or screens. Organic electronics made of nanoparticles or small molecules and generally require a more complicated application process. Technicians add organic electronic polymers to smooth substrate surfaces such as paper, thin plastic movies and cardboard, printing, coating and laminating surfaces. If the current is given, organic electronics act as conductors, semiconductors and light emitters.
Plastic electronics on thin film are usually thinner and weigh less than a conventional circuit board. Substant and substrate have physical flexibility that traditional electronic computs are missing. Manufacturers report the process of creating organic electronics at room temperature requires less eNergie, which is the total finished product more efficient. Many people believe that organic electronics are environmentally friendly alternatives to conventional electronic components, because the planet contains virtually unlimited supply of organic material that can be used as building blocks. Being in nature scientists state that the disposal of components creates a minor adverse environmental impact.
practical applications for organic electronics include diodes emitting organic light or OLED that convert electricity into light. Some companies use this technology to create displays in mobile phones, laptops and other electronic devices. Some popular electronic companies create TVs that have organic electrolyuminescent screens. Organic substances also have the ability to absorb light and convert it into an electric current. These lesitisive and flexible organic photovoltaic cells or OPVs are suitable for using jaKO solar battery or solar panels.