S
Shuming Chen
Researcher at Southern University of Science and Technology
Publications - 200
Citations - 9300
Shuming Chen is an academic researcher from Southern University of Science and Technology. The author has contributed to research in topics: Quantum dot & Light-emitting diode. The author has an hindex of 44, co-authored 186 publications receiving 7429 citations. Previous affiliations of Shuming Chen include Sun Yat-sen University & University Grants Committee.
Papers
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One-step fabrication of organic nanoparticles as scattering media for extracting substrate waveguide light from organic light-emitting diodes
TL;DR: In this paper, the TPE nanoparticles were used as scattering media for extracting the substrate waveguide light from blue organic light-emitting diodes (OLEDs), and a 28% efficiency improvement was obtained.
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Rational design of high efficiency green to deep red/near-infrared emitting materials based on isomeric donor–acceptor chromophores
Youming Zhang,Youming Zhang,Zhao Chen,Jun Song,Junjie He,Xin Wang,Jiatao Wu,Jiatao Wu,Shuming Chen,Junle Qu,Wai Yeung Wong +10 more
TL;DR: In this paper, a family of compounds TPA-BT-Q with an isomeric donor-acceptor conjugation framework were designed and synthesized, and their structure-property relationships, theoretical calculations, and photophysical and electrochemical characteristics were investigated.
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Improving blue quantum dot light-emitting diodes by a lithium fluoride interfacial layer
Xiangwei Qu,Xiangwei Qu,Nan Zhang,Rui Cai,Bonan Kang,Shuming Chen,Bing Xu,Kai Wang,Xiao Wei Sun +8 more
TL;DR: In this article, a lithium fluoride interlayer is inserted between ZnO and the quantum dot layer to improve the efficiency and stability of blue QLEDs, and the LiF interfacial layer facilitates electron injection into QDs through the electron tunneling effect and suppresses the exciton quenching at the QD/ZnO interface.
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Effect and mechanism of encapsulation on aging characteristics of quantum-dot light-emitting diodes
TL;DR: In this article, the authors provided an in-depth and systematic understanding of the mechanism of positive aging and offered a practical encapsulation way for realizing efficient and stable QLEDs. But they did not consider the negative aging effect.
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Phase shift of electric-field-induced magnetization in magnetoelectric laminate composite
TL;DR: A magnetoelectric laminate composite with electric-field-induced magnetization (EIM) effect was prepared and it was found that the phase shift of EIM in the laminate was highly sensitive to the dc magnetic field near resonance frequency as discussed by the authors.