Sena Yang

808 total citations
38 papers, 683 citations indexed

About

Sena Yang is a scholar working on Electrical and Electronic Engineering, Biomedical Engineering and Materials Chemistry. According to data from OpenAlex, Sena Yang has authored 38 papers receiving a total of 683 indexed citations (citations by other indexed papers that have themselves been cited), including 20 papers in Electrical and Electronic Engineering, 19 papers in Biomedical Engineering and 17 papers in Materials Chemistry. Recurrent topics in Sena Yang's work include Molecular Junctions and Nanostructures (12 papers), Surface Chemistry and Catalysis (11 papers) and Plasmonic and Surface Plasmon Research (6 papers). Sena Yang is often cited by papers focused on Molecular Junctions and Nanostructures (12 papers), Surface Chemistry and Catalysis (11 papers) and Plasmonic and Surface Plasmon Research (6 papers). Sena Yang collaborates with scholars based in South Korea, United States and China. Sena Yang's co-authors include Hangil Lee, Yun Jeong Hwang, Se Hoon Kim, Yeonwoo Kim, Jeong Won Kim, Hrvoje Petek, Yanan Dai, Atreyie Ghosh, Zhikang Zhou and Chen‐Bin Huang and has published in prestigious journals such as ACS Nano, Journal of Hazardous Materials and Applied Catalysis B: Environmental.

In The Last Decade

Sena Yang

36 papers receiving 675 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Sena Yang South Korea 15 407 279 201 157 146 38 683
Yannick Hermans Germany 11 549 1.3× 437 1.6× 279 1.4× 68 0.4× 75 0.5× 23 760
Haotian Shi United States 16 427 1.0× 257 0.9× 279 1.4× 132 0.8× 112 0.8× 32 759
Hanyu Xu China 17 659 1.6× 439 1.6× 118 0.6× 84 0.5× 141 1.0× 40 796
Yamin Huang China 14 713 1.8× 569 2.0× 266 1.3× 86 0.5× 177 1.2× 25 1.1k
Héctor Barrón United States 15 529 1.3× 156 0.6× 212 1.1× 98 0.6× 55 0.4× 22 765
Anne‐Eva Nieuwelink Netherlands 11 394 1.0× 156 0.6× 51 0.3× 158 1.0× 89 0.6× 17 557
A. Pawlis Germany 12 307 0.8× 282 1.0× 85 0.4× 91 0.6× 315 2.2× 26 748
Bingya Hou United States 14 319 0.8× 158 0.6× 264 1.3× 89 0.6× 104 0.7× 19 550
Liping Peng China 15 360 0.9× 206 0.7× 143 0.7× 100 0.6× 26 0.2× 52 592
Qing‐Na Zheng China 12 220 0.5× 145 0.5× 245 1.2× 153 1.0× 65 0.4× 23 485

Countries citing papers authored by Sena Yang

Since Specialization
Citations

This map shows the geographic impact of Sena Yang'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 Sena Yang with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Sena Yang more than expected).

Fields of papers citing papers by Sena Yang

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Sena Yang. 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 Sena Yang. The network helps show where Sena Yang may publish in the future.

Co-authorship network of co-authors of Sena Yang

This figure shows the co-authorship network connecting the top 25 collaborators of Sena Yang. A scholar is included among the top collaborators of Sena Yang 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 Sena Yang. Sena Yang 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.
Zhou, Zhikang, Atreyie Ghosh, Sena Yang, et al.. (2025). Nanoscale momentum transport by dual plasmonic vortex design. Applied Physics Reviews. 12(1). 2 indexed citations
2.
Wolfe, Cody M., et al.. (2025). Asbestos identification in bulk samples using FTIR and multivariate data analysis. Journal of Hazardous Materials. 497. 139583–139583.
3.
Ghosh, Atreyie, Sena Yang, Yanan Dai, W. Vincent Liu, & Hrvoje Petek. (2024). Plasmonic vortices host magnetoelectric interactions. Physical Review Research. 6(1). 3 indexed citations
4.
5.
Ghosh, Atreyie, Sena Yang, Yanan Dai, & Hrvoje Petek. (2023). The Spin Texture Topology of Polygonal Plasmon Fields. ACS Photonics. 10(1). 13–23. 31 indexed citations
6.
Yang, Sena, et al.. (2022). Severe carbon accumulation on black phosphorous flakes induced by synchrotron x-ray radiation. Applied Surface Science. 597. 153605–153605. 4 indexed citations
7.
Yang, Sena, et al.. (2021). Influence of the metal phthalocyanine molecular orientation on charge separation at the organic donor/acceptor interface. Journal of Materials Chemistry C. 9(6). 2156–2164. 9 indexed citations
8.
Kim, Yeonwoo, et al.. (2018). Transition metal doped Sb@SnO2 nanoparticles for photochemical and electrochemical oxidation of cysteine. Scientific Reports. 8(1). 12348–12348. 15 indexed citations
9.
Yang, Sena, et al.. (2018). Organic Interface Engineering for Stable Green PHOLEDs through an Ultrathin Interface Tunneling Layer. Advanced Materials Interfaces. 5(21). 8 indexed citations
10.
Yang, Sena, Ansoon Kim, Jaesung Park, et al.. (2018). Thermal annealing of black phosphorus for etching and protection. Applied Surface Science. 457. 773–779. 19 indexed citations
11.
Yang, Sena & Hangil Lee. (2017). Determining the Catalytic Activity of Transition Metal-Doped TiO2 Nanoparticles Using Surface Spectroscopic Analysis. Nanoscale Research Letters. 12(1). 582–582. 14 indexed citations
12.
Kim, Yeonwoo, Sena Yang, Eun Hee Jeon, et al.. (2016). Enhancement of Photo-Oxidation Activities Depending on Structural Distortion of Fe-Doped TiO2 Nanoparticles. Nanoscale Research Letters. 11(1). 41–41. 12 indexed citations
13.
Yang, Sena, Aram Jeon, Russell W. Driver, et al.. (2016). The formation of right-handed and left-handed chiral nanopores within a single domain during amino acid self-assembly on Au(111). Physical Chemistry Chemical Physics. 18(21). 14172–14176. 1 indexed citations
14.
Kwon, HyukSang, Tae Gun Kim, Eun Seong Lee, et al.. (2016). Ultrathin and Flat Layer Black Phosphorus Fabricated by Reactive Oxygen and Water Rinse. ACS Nano. 10(9). 8723–8731. 77 indexed citations
15.
Jeon, Eun Hee, Sena Yang, Yeonwoo Kim, et al.. (2015). Comparative study of photocatalytic activities of hydrothermally grown ZnO nanorod on Si(001) wafer and FTO glass substrates. Nanoscale Research Letters. 10(1). 361–361. 12 indexed citations
16.
Yang, Sena, et al.. (2013). Confirmation of the coexistence of two tautomers of 2-mercaptothiazoline on the Ge(100) surface. Physical Chemistry Chemical Physics. 15(39). 16594–16594. 5 indexed citations
17.
Yang, Sena, et al.. (2013). Variation of adsorption geometries by the influence of nucleophilicity among p-CPA, p-TPA, and p-NPA on Ge(1 0 0). Chemical Physics Letters. 578. 162–166. 2 indexed citations
18.
Kim, Ki-jeong, et al.. (2013). Annealing Effects after Nitrogen Ion Casting on Monolayer and Multilayer Graphene. The Journal of Physical Chemistry C. 117(5). 2129–2134. 30 indexed citations
19.
Yang, Sena, et al.. (2011). Coverage‐Dependent Variation of Adsorption Configurations of Methionine on Ge(100). Chemistry - An Asian Journal. 6(9). 2362–2367. 9 indexed citations
20.
Park, Sunmin, et al.. (2010). Adsorption Configuration for Cysteine on Ge(100): Coverage-Dependent Surface Reorientation. The Journal of Physical Chemistry C. 114(34). 14528–14531. 15 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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