Tai, Jing WenJing WenTaiTang, YukunYukunTangZhang, KaiKaiZhangYang, Chen ZongChen ZongYangPan, Ze HuiZe HuiPanLin, Yu ChingYu ChingLinShih, Yu WeiYu WeiShihChen, Chia HsunChia HsunChenChiu, Tien LungTien LungChiuJIUN-HAW LEEWang, Chuan KuiChuan KuiWangCHUNG-CHIH WUFan, JianJianFan2023-06-262023-06-262023-01-1513858947https://scholars.lib.ntu.edu.tw/handle/123456789/633079Near infrared (NIR) emitters have attracted much attention due to their advanced application in biomedical sensing/imaging, and telecommunications. However, the development of efficient NIR thermally activated delayed fluorescence (TADF) emitters with the emission over 750 nm is still a challenge. Herein two Y-shaped NIR TADF molecules (Py-TPA and Py-CN-TPA) were introduced. The inclusion of pyridine unit in these two emitters not only extended the conjugated system but also increased the molecular aspect ratios, thereby leading to their high horizontal ratio of emitting dipole orientation (Θ//). In addition, the NIR emitter showed a low Huang-Rhys (HR) factor in thin film relative to that in solution, indicating a low non-radiative transition rate and a high photoluminescent quantum yield (PLQY). Consequently, TADF OLED based on Py-TPA demonstrated a record-high external quantum efficiency (EQE) of 22.2% at 726 nm, 16.3% at 747 nm, and 13.2% at 761 nm.Horizontal ratio | Near-infrared | OLED | Thermally activated delayed fluorescence[SDGs]SDG7journal article10.1016/j.cej.2022.1395342-s2.0-85139362750WOS:000871102700004https://api.elsevier.com/content/abstract/scopus_id/85139362750