Yue Jiang scite author profile

Yue Jiang

3Publications

34Citation Statements Received

258Citation Statements Given

How they've been cited

How they cite others

152

250

Affiliations

Inner Mongolia University, Jinling Institute of Technology, Nanjing University of Posts and Telecommunications

Publications

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Recent Development of Moisture‐Enabled‐Electric Nanogenerators

Guan

Zhu

et al. 2022

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Power generation by converting energy from the ambient environment has been considered a promising strategy for developing decentralized electrification systems to complement the electricity supply for daily use. Wet gases, such as water evaporation or moisture in the atmosphere, can be utilized as a tremendous source of electricity by emerging power generation devices, that is, moisture‐enabled‐electric nanogenerators (MEENGs). As a promising technology, MEENGs provided a novel manner to generate electricity by harvesting energy from moisture, originating from the interactions between water molecules and hydrophilic functional groups. Though the remarkable progress of MEENGs has been achieved, a systematic review in this specific area is urgently needed to summarize previous works and provide sharp points to further develop low‐cost and high‐performing MEENGs through overcoming current limitations. Herein, the working mechanisms of MEENGs reported so far are comprehensively compared. Subsequently, a systematic summary of the materials selection and fabrication methods for currently reported MEENG construction is presented. Then, the improvement strategies and development directions of MEENG are provided. At last, the demonstrations of the applications assembled with MEENGs are extracted. This work aims to pave the way for the further MEENGs to break through the performance limitations and promote the popularization of future micron electronic self‐powered equipment.

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Switchable Interlayer Magnetic Coupling of Bilayer CrI3

et al. 2021

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Due to the weak van der Waals (vdW) interlayer interaction, interfacial geometry of two-dimensional (2D) magnetic vdW materials can be freely assembled, and the stacking order between layers can be readily controlled, such as laterally shifting or rotating, which may trigger the variation of magnetic order. We investigate the H-type bilayer CrI3 where the two layers are aligned in anti-parallel directions. Based on first-principles calculations, we propose two states with different interlayer magnetic couplings, i.e., ferromagnetic and antiferromagnetic, and analyze the superexchange mechanism inside. It is found that the two magnetic coupling states are stacking-dependent, and could be switched by applying out-of-plane axial strain and electron doping. Our findings show great application potential in the design of heterostructural and spintronic devices based on 2D magnetic vdW materials.

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Author Correction: Ab-initio calculations of shallow dopant qubits in silicon from pseudopotential and all-electron mixed approach

Hsueh

Monir

et al. 2022

Commun Phys

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Yue Jiang

Recent Development of Moisture‐Enabled‐Electric Nanogenerators

Switchable Interlayer Magnetic Coupling of Bilayer CrI3

Author Correction: Ab-initio calculations of shallow dopant qubits in silicon from pseudopotential and all-electron mixed approach

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