Staggered Face‐to‐Face Molecular Stacking as a Strategy for Designing Deep‐Blue Electroluminescent Materials with High Carrier Mobility | Zendy

Chen WenCheng | Zendy; Yuan Yi | Zendy; Wu GuangFu | Zendy; Wei HuaiXin | Zendy; Tang Li | Zendy; Tong QingXiao | Zendy; Wong FuLung | Zendy; Lee ChunSing | Zendy

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Staggered Face‐to‐Face Molecular Stacking as a Strategy for Designing Deep‐Blue Electroluminescent Materials with High Carrier Mobility

Author(s) -

Chen WenCheng,

Yuan Yi,

Wu GuangFu,

Wei HuaiXin,

Tang Li,

Tong QingXiao,

Wong FuLung,

Lee ChunSing

Publication year - 2014

Publication title -

advanced optical materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.89

H-Index - 91

ISSN - 2195-1071

DOI - 10.1002/adom.201400078

Subject(s) - stacking , materials science , electroluminescence , planar , face (sociological concept) , optoelectronics , computer science , nanotechnology , computer graphics (images) , physics , social science , nuclear magnetic resonance , layer (electronics) , sociology

Synergy between optical and electrical properties , namely, deep‐blue emission (color saturation: (0.15,0.10)) and a high carrier mobility (stemming from π–π stacking) are demonstrated in a novel planar linear molecular design for effective deep‐blue electroluminescence with a yield of 5.48 cd A −1 .

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