Singlet Fission (IMAGE)

Kyushu University, OPERA

Singlet Fission

Caption

Illustration of the singlet fission process used to boost the number of excitons in an OLED and break the 100 percent limit for exciton production efficiency. The emitting layer consists of a mixture of rubrene molecules, which are responsible for singlet fission, and ErQ3 molecules, which produce the emission. A singlet exciton, which is created when a positive charge and a negative charge combine on a rubrene molecule, can transfer half of its energy to a second rubrene molecule through the process of singlet fission, resulting in two triplet excitons. The triplet excitons then transfer to ErQ3 molecules, and the exciton energy is released as near-infrared emission by ErQ3.

Credit

William J. Potscavage Jr.

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