Zhenhua Huang scite author profile

We investigate numerically the edge modes supported by graphene ribbons and the planar band-stop filter consisting of a graphene ribbon lateral coupled a graphene ring resonator by using the finite-difference time-domain method. Simulation results reveal that the edge modes can enhance the electromagnetic coupling between objects indeed and this structure realizes perfect, tunable filtering effect. Successively, the channel-drop filter is constructed. Especially, the proposed structures can be designed and the size of the ring is changed by creating non-uniform conductivity patterns on monolayer graphene. Our studies will benefit the fabrication of the planar, ultra-compact devices in the mid-infrared region.

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Reinforcement learning algorithms with function approximation: Recent advances and applications

Zuo

Huang

2014

Information Sciences

156

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Local and regional drivers of turnover and nestedness components of species and functional beta diversity in lake macrophyte communities in China

Yuan

Jeppesen

et al. 2019

Science of The Total Environment

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Single Plasmonic Nanosprings for Visualizing Reactive-Oxygen-Species-Activated Localized Mechanical Force Transduction in Live Cells

et al. 2017

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Mechanical force signaling in cells has been regarded as the biological foundation of various important physiological functions. To understand the nature of these biological and physiological processes, imaging and determining the mechanical signal transduction dynamics in live cells are required. Herein, we proposed a strategy to determine mechanical force as well as its changes with single-particle dark-field spectral microscopy by using a single plasmonic nanospring as a mechanical sensor, which can transfer force-induced molecular extension/compression into spectral responses. With this robust plasmonic nanospring, we achieved the visualization of activation of localized mechanical force transduction in single live cells triggered by reactive-oxygen-species (ROS) stimulation. The successful demonstration of a biochemical ROS signal to mechanical signal conversion suggested this strategy is promising for studying mechanical force signaling and regulation in live biological systems.

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Zhenhua Huang

An Efficient Group Recommendation Model With Multiattention-Based Neural Networks

Investigation of the graphene based planar plasmonic filters

Reinforcement learning algorithms with function approximation: Recent advances and applications

Local and regional drivers of turnover and nestedness components of species and functional beta diversity in lake macrophyte communities in China

Single Plasmonic Nanosprings for Visualizing Reactive-Oxygen-Species-Activated Localized Mechanical Force Transduction in Live Cells

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