Mei Xue

729 total citations
25 papers, 625 citations indexed

About

Mei Xue is a scholar working on Electrical and Electronic Engineering, Aerospace Engineering and Biomedical Engineering. According to data from OpenAlex, Mei Xue has authored 25 papers receiving a total of 625 indexed citations (citations by other indexed papers that have themselves been cited), including 20 papers in Electrical and Electronic Engineering, 10 papers in Aerospace Engineering and 9 papers in Biomedical Engineering. Recurrent topics in Mei Xue's work include Antenna Design and Analysis (8 papers), Advanced Antenna and Metasurface Technologies (7 papers) and Molecular Junctions and Nanostructures (6 papers). Mei Xue is often cited by papers focused on Antenna Design and Analysis (8 papers), Advanced Antenna and Metasurface Technologies (7 papers) and Molecular Junctions and Nanostructures (6 papers). Mei Xue collaborates with scholars based in China, United States and Singapore. Mei Xue's co-authors include Kang L. Wang, Jinfeng Zhu, Huajun Shen, Lu Li, Liqiang Cao, Qidong Wang, Weikang Wan, Baoqing Zeng, Zhibin Yu and Qibing Pei and has published in prestigious journals such as Applied Physics Letters, ACS Applied Materials & Interfaces and Nanoscale.

In The Last Decade

Mei Xue

24 papers receiving 612 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Mei Xue China 12 423 231 182 180 102 25 625
Jarrett H. Vella United States 12 303 0.7× 244 1.1× 186 1.0× 200 1.1× 113 1.1× 35 584
June Sang Lee United Kingdom 11 266 0.6× 117 0.5× 122 0.7× 179 1.0× 43 0.4× 24 533
Jia‐Hui Zhao China 11 397 0.9× 156 0.7× 56 0.3× 199 1.1× 71 0.7× 21 485
Wenbing Wu France 10 391 0.9× 122 0.5× 163 0.9× 200 1.1× 236 2.3× 14 650
Pingqi Gao China 14 632 1.5× 229 1.0× 67 0.4× 324 1.8× 103 1.0× 18 777
Ximiao Wang China 12 255 0.6× 340 1.5× 441 2.4× 424 2.4× 66 0.6× 35 855
Woo Young Kim South Korea 11 249 0.6× 168 0.7× 75 0.4× 222 1.2× 66 0.6× 42 568
S. Schumann Germany 16 594 1.4× 101 0.4× 42 0.2× 311 1.7× 288 2.8× 35 745
Y.Q. Liu China 12 314 0.7× 108 0.5× 53 0.3× 290 1.6× 132 1.3× 20 609
Worawut Khunsin Ireland 13 254 0.6× 421 1.8× 303 1.7× 165 0.9× 27 0.3× 34 713

Countries citing papers authored by Mei Xue

Since Specialization
Citations

This map shows the geographic impact of Mei Xue's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Mei Xue with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Mei Xue more than expected).

Fields of papers citing papers by Mei Xue

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Mei Xue. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Mei Xue. The network helps show where Mei Xue may publish in the future.

Co-authorship network of co-authors of Mei Xue

This figure shows the co-authorship network connecting the top 25 collaborators of Mei Xue. A scholar is included among the top collaborators of Mei Xue based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Mei Xue. Mei Xue is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Yue, Song, Yu Hou, Yue Fu, et al.. (2025). Full-Stokes polarimetric detection infrared metalens with reduced coma under a large angle of incidence based on the quadratic phase. Optical Materials Express. 15(10). 2362–2362.
2.
Yue, Song, Yu Hou, Shunshuo Cai, et al.. (2024). Multi-color long-wave infrared perfect absorber based on a heavily doped semiconductor that is inverse-designed via machine learning. Optics Express. 32(22). 39053–39053. 3 indexed citations
3.
Zhang, Zhe, Zhe Zhang, Haiyan Shi, et al.. (2022). Large-Scale Wideband Light-Trapping Black Silicon Textured by Laser Inducing Assisted with Laser Cleaning in Ambient Air. Nanomaterials. 12(10). 1772–1772. 9 indexed citations
4.
Xue, Mei, Weikang Wan, Qidong Wang, & Liqiang Cao. (2021). Low-Profile Wideband Millimeter-Wave Antenna-in-Package Suitable for Embedded Organic Substrate Package. IEEE Transactions on Antennas and Propagation. 69(8). 4401–4411. 11 indexed citations
5.
Wan, Weikang, Mei Xue, Liqiang Cao, Tianchun Ye, & Qidong Wang. (2021). Low‐profile compact metasurface‐loaded patch antenna with enhanced bandwidth. Microwave and Optical Technology Letters. 63(10). 2656–2661. 4 indexed citations
6.
Xue, Mei, Weikang Wan, Qidong Wang, & Liqiang Cao. (2021). Low-Profile Millimeter-Wave Broadband Metasurface Antenna With Four Resonances. IEEE Antennas and Wireless Propagation Letters. 20(4). 463–467. 28 indexed citations
7.
Xue, Mei, Weikang Wan, Qidong Wang, & Liqiang Cao. (2021). Low‐profile millimetre‐wave wideband microstrip antenna with parasitic patch arrays. IET Microwaves Antennas & Propagation. 15(4). 364–370. 6 indexed citations
8.
Wan, Weikang, Mei Xue, Liqiang Cao, Tianchun Ye, & Qidong Wang. (2020). Low-Profile Broadband Patch-Driven Metasurface Antenna. IEEE Antennas and Wireless Propagation Letters. 19(7). 1251–1255. 29 indexed citations
9.
Wan, Weikang, Mei Xue, Liqiang Cao, Tianchun Ye, & Qidong Wang. (2020). Wideband Low-profile AMC-based Patch Antenna for 5G Antenna-in-package Application. 11 indexed citations
10.
Xue, Mei, Weikang Wan, Qidong Wang, & Liqiang Cao. (2019). Wideband Low-Profile Ka-Band Microstrip Antenna with Low Cross Polarization Using Asymmetry AMC Structure. 2318–2323. 3 indexed citations
11.
Zhang, Qichong, Mei Xue, Qiulong Li, et al.. (2018). Facile Synthesis of Na-Doped MnO2 Nanosheets on Carbon Nanotube Fibers for Ultrahigh-Energy-Density All-Solid-State Wearable Asymmetric Supercapacitors. ACS Applied Materials & Interfaces. 10(43). 37233–37241. 69 indexed citations
12.
13.
Zhu, Jinfeng, Xiaodan Zhu, Lu Li, et al.. (2012). Metallic nanomesh electrodes with controllable optical properties for organic solar cells. Applied Physics Letters. 100(14). 54 indexed citations
14.
Zhu, Jinfeng, et al.. (2012). Light concentration and redistribution in polymer solar cells by plasmonic nanoparticles. Nanoscale. 4(6). 1978–1978. 27 indexed citations
15.
Zhu, Jinfeng, Jeung Hun Park, Lu Li, et al.. (2012). E-beam deposited Ag-nanoparticles plasmonic organic solar cell and its absorption enhancement analysis using FDTD-based cylindrical nano-particle optical model. Optics Express. 20(12). 12649–12649. 39 indexed citations
16.
Xue, Mei & Kang L. Wang. (2012). Molecular Rotors as Switches. Sensors. 12(9). 11612–11637. 22 indexed citations
17.
18.
Xue, Mei, Sanaz Kabehie, Adam Z. Stieg, et al.. (2010). A Molecular-Rotor Device for Nonvolatile High-Density Memory Applications. IEEE Electron Device Letters. 31(9). 1047–1049. 7 indexed citations
19.
Kabehie, Sanaz, Adam Z. Stieg, Mei Xue, et al.. (2010). Surface Immobilized Heteroleptic Copper Compounds as State Variables that Show Negative Differential Resistance. The Journal of Physical Chemistry Letters. 1(3). 589–593. 14 indexed citations
20.
Xue, Mei, Sanaz Kabehie, Adam Z. Stieg, et al.. (2009). Room temperature negative differential resistance of a monolayer molecular rotor device. Applied Physics Letters. 95(9). 6 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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