29 Papers
105 Citations
Hai Bi is an academic researcher from Technische Universität München. The author has contributed to research in topics: OLED & Chemistry. The author has an hindex of 15, co-authored 23 publications. Previous affiliations of Hai Bi include Harvard University & Harbin Institute of Technology.
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Papers
Photocurrent of a single photosynthetic protein
Daniel Gerster,Joachim Reichert,Hai Bi,Johannes V. Barth,Simone M Kaniber,Alexander W. Holleitner,Iris Visoly-Fisher,Shlomi Sergani,Itai Carmeli +8 more
TL;DR: It is shown that the photocurrent generated by a single photosynthetic protein-photosystem I-can be measured using a scanning near-field optical microscope set-up and is in agreement with the internal electron transfer times of photosystem I.
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Anthracene-Arrangement-Dependent Emissions of Crystals of 9-Anthrylpyrazole Derivatives
TL;DR: In this article, a series of 9-anthryl pyrazole derivatives were designed and synthesized for blue-emitting crystals, including 1,4-bis(3-9-anthrryl)-1-pyrazolylmethyl) and 1-3-1-pyrrithmophore pyrazolines.
124
Luminescent boron-contained ladder-type pi-conjugated compounds.
Zuolun Zhang,Hai Bi,Yu Zhang,Dandan Yao,Hongze Gao,Yan Fan,Hongyu Zhang,Yue Wang,Yanping Wang,Zhenyu Chen,Dongge Ma +10 more
TL;DR: Four diboron-contained ladder-type pi-conjugated compounds 1-4 possess high thermal stabilities, moderate solid-state fluorescence quantum yields, as well as stable redox properties, indicating that they are possible candidates for emitters and charge-transporting materials in electroluminescent (EL) devices.
89
Very high-efficiency red-electroluminescence devices based on an amidinate-ligated phosphorescent iridium complex
TL;DR: In this paper, a red phosphorescent OLED with a wide range of doping concentrations or even without doping was successfully fabricated by use of an easily available amidinate-ligated iridium complex.
85
Boron-Bridged π-Conjugated Ladders as Efficient Electron-Transporting Emitters
TL;DR: Four diboron-bridged ladder molecules 1-4 have been designed and synthesized and X-ray diffraction analysis revealed that the bulky phenyl substituents on boron centers efficiently prevented π stacking of the luminescent ladder unit.
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