Hao Xin
Peking University
8 Papers
173 Citations
Hao Xin is an academic researcher from Peking University. The author has contributed to research in topics: Europium & Terbium. The author has an hindex of 8, co-authored 8 publications. Previous affiliations of Hao Xin include University of Hong Kong.
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Papers
Efficient Electroluminescence from a New Terbium Complex
TL;DR: A new terbium complex was designed and synthesized, and devices using it as an emitter present satisfactory performance, with the highest brightness and power efficiency higher than previously reported.
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Bright and monochromic red light-emitting electroluminescence devices based on a new multifunctional europium ternary complex.
TL;DR: A novel europium(III) complex, tris(dibenzoylmethanato)(2-4'-triphenylamino)imidazo[4,5-f]1,10-phenanthroline)europiam(III), Eu(DBM)3(TPIP), is synthesized.
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The Effect of Different Neutral Ligands on Photoluminescence and Electroluminescence Properties of Ternary Terbium Complexes
Hao Xin,Mei Shi,Xi Cun Gao,Yanyi Huang,Ze Liang Gong,Dao Bo Nie,Hong Cao,Zuqiang Bian,Fuyou Li,Chunhui Huang +9 more
TL;DR: In this paper, the mechanism of how the neutral ligands affect photoluminescence (PL) and electroluminecence (EL) properties of terbium complexes was studied.
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Bright red light-emitting electroluminescence devices based on a functionalized europium complex
TL;DR: In this article, the Eu3+ based pure red emission with a brightness of 537 cd m−2 at 13 V and the power efficiency of 0.089 lm W−1 at 6 V, 33 cd m −2 at 8 V, and 8 cd m -2 at 14 V was obtained from a four-layer device with the configuration of ITO/TPD(40 nm)/Eu(DBM)3(CPIP), 40 nm)/BCP(20 nm)/AlQ(10 nm)/Mg0.9Ag0
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Carrier-Transport, Photoluminescence, and Electroluminescence Properties Comparison of a Series of Terbium Complexes with Different Structures
Hao Xin,Mei Shi,Xiao Mei Zhang,Fuyou Li,Zuqiang Bian,Kurash Ibrahim,Feng Qin Liu,Chunhui Huang +7 more
TL;DR: In this paper, a series of terbium complexes with different structures revealed different carrier-transport and photophysical properties, including electron-and hole-transportation properties, and the eletroluminescence (EL) performances achieved from complexes A, B, and C were 9600 cd/m2 and 5.21 lm/W, respectively.
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