Yanan Zhao scite author profile

Yanan Zhao

3Publications

3Citation Statements Received

33Citation Statements Given

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Xi'an Jiaotong University

Publications

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Self‐Assembled Epitaxial Ferroelectric Oxide Nanospring with Super‐Scalability (Adv. Mater. 13/2022)

Dong

Guo

et al. 2022

Advanced Materials

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Nanosprings In article number 2108419, Ziyao Zhou, Houbing Huang, Yong Peng, Ming Liu, and co‐workers report freestanding, epitaxial, ferroelectric nanosprings with superscalability, which provide insights regarding mechanical behaviors and domain evolution of ferroelectric oxide springs. The excellent scalability originates from the continuous ferroelastic domain structures, resulting from twisting under coexisting axial and shear strains. The superstretchable, elastic, and recoverable oxide spring provides a novel platform to flexible electronics.

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Effect of Cu doping on the secondary electron yield of carbon films on Ag-plated aluminum alloy

Hu¹,

Zhu²,

Zhao³

et al. 2022

Chinese Phys. B

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Reducing the secondary electron yield (SEY) of Ag-plated aluminum alloy is important for high-power microwave components. In this work, Cu doped carbon films are prepared and the secondary electron emission characteristics are studied systematically. The secondary electron coefficient δ max of carbon films increases with the Cu contents increasing at first, and then decreases to 1.53 at a high doping ratio of 0.645. From the viewpoint of surface structure, the higher the content of Cu is, the rougher the surface is, since more cluster particles appear on the surface due to the small solid solubility of Cu in the amorphous carbon network. However, from viewpoint of the electronic structure, the reduction of the sp2 hybrid bonds will increase the SEY effect as the content of Cu increases, due to the decreasing probability of collision with free electrons. Thus, the two mechanisms would compete and coexist to affect the SEY characteristics in Cu doped carbon films.

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Significantly reduced secondary electron emission from silver/carbon composite films for microwave devices

Zhao

Sun

et al. 2022

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The micro-discharge effect is a failure mechanism that often appeared in space microwave devices under vacuum conditions, such as RF (radio frequency) cavity, RF satellite missile, and antenna launching communication system. How to control micro-discharge effectively and simply has become a research hotspot. In this paper, we have prepared a series of doping silver (Ag)/carbon (C) composite films by double target magnetron sputtering technology and have significantly reduced the maximum secondary electron emission coefficient (δmax) from 2.522 to 1.04 when the doping ratio of Ag/C is 1.345. Theoretically, the continuous increase of sp2 hybrid bond content tuned by the existing Ag nanoparticles has a greater contribution to the conductivity and inhibition of secondary electron emission in the Ag/C composite films. Meanwhile, the gradually emerged “multi-trap” surface structure with the increase of Ag doping content has further increased the collision between excited secondary electrons and free electrons, achieving an obvious inhibition effect. The results demonstrate that secondary electron emission can be suppressed effectively by tuning the structural feature of two kinds of compounded materials with low δmax. It is of great significance in physical mechanism analysis and design of the new doping process.

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Yanan Zhao

Self‐Assembled Epitaxial Ferroelectric Oxide Nanospring with Super‐Scalability (Adv. Mater. 13/2022)

Effect of Cu doping on the secondary electron yield of carbon films on Ag-plated aluminum alloy

Significantly reduced secondary electron emission from silver/carbon composite films for microwave devices

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