Z
Zhang-Kai Zhou
Researcher at Sun Yat-sen University
Publications - 86
Citations - 3123
Zhang-Kai Zhou is an academic researcher from Sun Yat-sen University. The author has contributed to research in topics: Plasmon & Quantum dot. The author has an hindex of 25, co-authored 82 publications receiving 2397 citations. Previous affiliations of Zhang-Kai Zhou include Hong Kong University of Science and Technology & Wuhan University.
Papers
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Journal ArticleDOI
Plasmonic gold mushroom arrays with refractive index sensing figures of merit approaching the theoretical limit
Yang Shen,Jianhua Zhou,Tianran Liu,Yuting Tao,Ruibin Jiang,Mingxuan Liu,Guohui Xiao,Jinhao Zhu,Zhang-Kai Zhou,Xue-Hua Wang,Chongjun Jin,Jianfang Wang +11 more
TL;DR: This work describes an array of submicrometer gold mushrooms with a FOM reaching ~108, which is comparable to the theoretically predicted upper limit for standard PSPR sensors, and demonstrates the array as a biosensor for detecting cytochrome c and alpha-fetoprotein, suggesting that the array is a promising candidate for label-free biomedical sensing.
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Strong Light-Matter Interactions in Single Open Plasmonic Nanocavities at the Quantum Optics Limit.
Renming Liu,Zhang-Kai Zhou,Yi-Cong Yu,Tengwei Zhang,Hao Wang,Guanghui Liu,Yuming Wei,Huanjun Chen,Xue-Hua Wang +8 more
TL;DR: These two hindrances can be overcome by attaching individual J aggregates to single cuboid Au@Ag nanorods, enabling strong light-matter interactions to be achieved at the quantum optics limit in single open plasmonic nanocavities.
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Ultrafast Plasmonic Hot Electron Transfer in Au Nanoantenna/MoS2 Heterostructures
TL;DR: In this article, the template-based sputtering method is used first to fabricate Au nanoantenna (NA)/MoS2 heterostructures with low cost, simple preparation, broad spectral response, and fast response time.
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Evaporative Self-Assembly of Gold Nanorods into Macroscopic 3D Plasmonic Superlattice Arrays.
Penghui Li,Penghui Li,Yong Li,Zhang-Kai Zhou,Siying Tang,Xue-Feng Yu,Shu Xiao,Zhongzhen Wu,Quanlan Xiao,Yuetao Zhao,Huaiyu Wang,Paul K. Chu +11 more
TL;DR: The regular organization of the gold nanorods into a macroscopic superlattice enables the production of a plasmonic substrate with excellent sensitivity and reproducibility, as well as reliability in surface-enhanced Raman scattering.
Journal ArticleDOI
Scalable, full-colour and controllable chromotropic plasmonic printing.
Jiancai Xue,Zhang-Kai Zhou,Zhiqiang Wei,Rongbin Su,Juan Lai,Juntao Li,Chao Li,Tengwei Zhang,Xue-Hua Wang +8 more
TL;DR: This work presents a scalable and full-colour plasmonic printing approach by combining conjugate twin-phase modulation with a plAsmonic broadband absorber that demonstrates controllable chromotropic capability, that is, the ability of reversible colour transformations.