J
Jianing Chen
Researcher at Chinese Academy of Sciences
Publications - 54
Citations - 4994
Jianing Chen is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Plasmon & Graphene. The author has an hindex of 24, co-authored 52 publications receiving 4162 citations. Previous affiliations of Jianing Chen include Lund University & Spanish National Research Council.
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Far-field disentanglement of modes in hybrid plasmonic-photonic crystals by fluorescence nano-reporters
TL;DR: In this paper, the resonance modes exhibited by a hybrid nanostructure have been disentangled in the far-field owing to narrow-band fluorescence nano-reporters.
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Near-field optics on flatland: from noble metals to van der Waals materials
TL;DR: In this article, near-field optics, with the capability for nanoscale manipulation of photons and enhancement of light-matter interactions, has drawn tremendous attentions in recent years.
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Diamond Blackfan anemia is mediated by hyperactive Nemo-like kinase.
Mark C. Wilkes,Kavitha Siva,Jianing Chen,G. Varetti,Minyoung Youn,Hee-Don Chae,Fredrik Ek,Roger Olsson,Thomas Lundbäck,Daniel P. Dever,Toshinobu Nishimura,Anupama Narla,Bertil Glader,Hiromitsu Nakauchi,Hiromitsu Nakauchi,Matt Porteus,Claire E. Repellin,Hanna T. Gazda,Hanna T. Gazda,Sijie Lin,Manuel Serrano,Johan Flygare,Kathleen M. Sakamoto +22 more
TL;DR: The role of Nemo-like kinase (NLK) in erythroid cells in the pathogenesis of DBA and as a potential target for therapy are examined.
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Observation and Ultrafast Dynamics of Inter-Sub-Band Transition in InAs Twinning Superlattice Nanowires.
Mengfei Xue,Ming Li,Yisheng Huang,Runkun Chen,Yunliang Li,Jingyun Wang,Yingjie Xing,Jianjun Chen,Jianjun Chen,Hugen Yan,Hongqi Xu,Jianing Chen +11 more
TL;DR: The findings reveal the physical mechanisms of inter-sub-band transitions in TSL structure and suggest that TSL structures are promising candidates for mid-infrared optoelectronic applications.
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Manipulating phonon polaritons in low loss 11B enriched hexagonal boron nitride with polarization control
TL;DR: These findings demonstrate an effective approach to reducing phonon polariton damping and manipulating phonon Polariton excitation in hBN, which are beneficial for developing HPPs-based nanophotonic applications.