posted on 2019-12-06, 15:42authored byHee-Jun Park, Ha Lim Lee, Ho Jung Lee, Kyung Hyung Lee, Jun Yeob Lee, Wan Pyo Hong
A novel design for thermally activated delayed fluorescence
(TADF)
emitters was developed by decorating dibenzofuran with four carbazole
type electron donors and two CN electron withdrawing units. The four
carbazole type donors were attached to one side of the dibenzofuran,
and two CN units were introduced on the other side of the dibenzofuran
for highest occupied molecular orbital (HOMO) and lowest unoccupied
molecular orbital (LUMO) separation. The HOMO and LUMO were largely
separated, and they were overlapped in the dibenzofuran due to aromatic
nature of dibenzofuran. Two TADF emitters, DBFCzCN and DBFtCzCN, were
built on the design platform decorating the dibenzofuran, and they
showed high EQEs of 25.2% and 17.4% in the vacuum deposited TADF devices.
Additionally, the DBFtCzCN emitter showed a high EQE of 13.9% in the
solution processed TADF devices.