Transistor, semiconductor device, and electronic device
摘要
說(shuō)明書(shū)
In addition to the light-emitting compound, the EL layer may further include any of a substance with an excellent hole-injection property, a substance with an excellent hole-transport property, a hole-blocking material, a substance with an excellent electron-transport property, a substance with an excellent electron-injection property, a substance with a bipolar property (a substance with an excellent electron-transport property and an excellent hole-transport property), and the like.
The EL layer can be formed by an evaporation method (including a vacuum evaporation method), a transfer method, a printing method, an inkjet method, a coating method, or the like.
Inorganic EL elements are classified into a dispersion-type inorganic EL element and a thin-film inorganic EL element according to their element structures. A dispersion-type inorganic EL element has a light-emitting layer where particles of a light-emitting material are dispersed in a binder, and its light emission mechanism is donor-acceptor recombination type light emission that utilizes a donor level and an acceptor level. A thin-film inorganic EL element has a structure where a light-emitting layer is sandwiched between dielectric layers, which are further sandwiched between electrodes, and its light emission mechanism is localized type light emission that utilizes inner-shell electron transition of metal ions. Note that description is given here using an organic EL element as a light-emitting element.
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