Guangyi Chen

1.4k total citations
49 papers, 1.2k citations indexed

About

Guangyi Chen is a scholar working on Biomaterials, Electrical and Electronic Engineering and Renewable Energy, Sustainability and the Environment. According to data from OpenAlex, Guangyi Chen has authored 49 papers receiving a total of 1.2k indexed citations (citations by other indexed papers that have themselves been cited), including 17 papers in Biomaterials, 17 papers in Electrical and Electronic Engineering and 16 papers in Renewable Energy, Sustainability and the Environment. Recurrent topics in Guangyi Chen's work include biodegradable polymer synthesis and properties (16 papers), Electrocatalysts for Energy Conversion (12 papers) and Advanced battery technologies research (10 papers). Guangyi Chen is often cited by papers focused on biodegradable polymer synthesis and properties (16 papers), Electrocatalysts for Energy Conversion (12 papers) and Advanced battery technologies research (10 papers). Guangyi Chen collaborates with scholars based in China, Australia and Japan. Guangyi Chen's co-authors include Zhiyong Wei, Wanxi Zhang, Jicai Liang, Ping Song, Min Qi, Lin Sang, Xufeng Dong, Guangshuo Wang, Ying Chang and Jicai Liang and has published in prestigious journals such as The Journal of Physical Chemistry C, Journal of Colloid and Interface Science and Polymer.

In The Last Decade

Guangyi Chen

48 papers receiving 1.1k citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Guangyi Chen China 19 451 367 305 302 248 49 1.2k
Xianghao Zuo United States 19 378 0.8× 471 1.3× 218 0.7× 246 0.8× 259 1.0× 27 1.0k
Liguang Xiao China 16 217 0.5× 186 0.5× 267 0.9× 201 0.7× 156 0.6× 69 833
Min Min Aung Malaysia 20 383 0.8× 855 2.3× 205 0.7× 288 1.0× 319 1.3× 45 1.3k
Koji Nakane Japan 19 724 1.6× 438 1.2× 315 1.0× 235 0.8× 561 2.3× 103 1.3k
Xi Zhao China 21 440 1.0× 699 1.9× 229 0.8× 85 0.3× 195 0.8× 36 1.4k
Peng Ji China 18 382 0.8× 344 0.9× 304 1.0× 217 0.7× 528 2.1× 53 1.2k
Bozhen Wu China 21 369 0.8× 429 1.2× 310 1.0× 81 0.3× 304 1.2× 59 1.1k
Jiaoyang Chen China 14 243 0.5× 990 2.7× 391 1.3× 207 0.7× 468 1.9× 34 1.4k
Lin Gu China 28 523 1.2× 717 2.0× 993 3.3× 344 1.1× 624 2.5× 73 2.2k
Jianbin Qin China 19 151 0.3× 478 1.3× 218 0.7× 122 0.4× 238 1.0× 34 991

Countries citing papers authored by Guangyi Chen

Since Specialization
Citations

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

Fields of papers citing papers by Guangyi Chen

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Guangyi Chen

This figure shows the co-authorship network connecting the top 25 collaborators of Guangyi Chen. A scholar is included among the top collaborators of Guangyi Chen 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 Guangyi Chen. Guangyi Chen 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.
Li, Xiang, et al.. (2024). Regulating the cationic vacancy structure of NiO to optimize its d band center and accelerate oxygen evolution reaction. International Journal of Hydrogen Energy. 80. 907–915. 7 indexed citations
2.
Chen, Guangyi, et al.. (2024). Optimizing rice yield, quality and nutrient use efficiency through combined application of nitrogen and potassium. Frontiers in Plant Science. 15. 1335744–1335744. 8 indexed citations
3.
Chen, Guangyi, et al.. (2022). Response of yield and quality of giant embryo rice to nitrogen application and analysis of lipid-lowering effect. Frontiers in Plant Science. 13. 1023677–1023677. 3 indexed citations
4.
Łuczak, Justyna, et al.. (2021). How Do Ionic Liquids Affect the Surface Structure of Titania Photocatalyst? An Electron-Trap Distribution-Analysis Study. The Journal of Physical Chemistry C. 125(51). 28143–28149. 12 indexed citations
5.
Liang, Jicai, et al.. (2019). One-Time Roll-Forming Technology for High-Strength Steel Profiles with “日” Section. Advances in Materials Science and Engineering. 2019. 1–10. 2 indexed citations
6.
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8.
Chen, Guangyi, et al.. (2019). Self-growth Ni2P nanosheet arrays with cationic vacancy defects as a highly efficient bifunctional electrocatalyst for overall water splitting. Journal of Colloid and Interface Science. 561. 638–646. 73 indexed citations
9.
Chen, Guangyi, et al.. (2017). CoSb3 alloy nanoparticles wrapped with N-doped carbon layers as a highly active bifunctional electrocatalyst for zinc–air batteries. RSC Advances. 7(52). 33012–33019. 8 indexed citations
10.
Sun, Peng, et al.. (2016). Direct growth of bundle-like cobalt selenide nanotube arrays on Ni foam as binder-free electrode for high-performance supercapacitors. Research on Chemical Intermediates. 43(3). 1969–1978. 12 indexed citations
11.
12.
Liang, Jicai, et al.. (2016). Synthesis of porous Cu7.2S4 sub-microspheres by an ion exchange method for high-performance supercapacitors. RSC Advances. 6(20). 16832–16837. 25 indexed citations
13.
Liang, Jicai, Ding Chen, Zhiyong Wei, et al.. (2014). Mechanical, morphology, and thermal properties of carbon fiber reinforced poly(butylene succinate) composites. Polymer Composites. 36(7). 1335–1345. 28 indexed citations
14.
Wang, Guangshuo, Ling Wang, Zhiyong Wei, et al.. (2013). Synthesis and characterization of poly(ɛ-caprolactone)/Fe3o4 nanocomposites by in situ polymerization. Chinese Journal of Polymer Science. 31(7). 1011–1021. 8 indexed citations
15.
Yang, Xuewei, Xin Dai, Rui Zhang, et al.. (2013). Long-chain alcohols derived from the microalga Monoraphidium. 1(2). 107–116. 1 indexed citations
16.
Chen, Guangyi, et al.. (2012). Preparation, Characterization and Properties of Graphene-silver Sulphide Hybrid. Chemical Research in Chinese Universities. 28(5). 757–759. 1 indexed citations
17.
Song, Ping, Guangyi Chen, Zhiyong Wei, et al.. (2012). Rapid crystallization of poly(l-lactic acid) induced by a nanoscaled zinc citrate complex as nucleating agent. Polymer. 53(19). 4300–4309. 88 indexed citations
18.
Chen, Guangyi, et al.. (2012). One-Step Synthesis, Characterization and Optical Property of Graphene-Silver Selenide Nanocomposites. Rare Metal Materials and Engineering. 41(7). 1153–1155. 4 indexed citations
19.
Song, Ping, Guangyi Chen, Zhiyong Wei, Wanxi Zhang, & Jicai Liang. (2012). Calorimetric analysis of the multiple melting behavior of melt-crystallized poly(l-lactic acid) with a low optical purity. Journal of Thermal Analysis and Calorimetry. 111(2). 1507–1514. 28 indexed citations
20.
Chen, Guangyi, Wanxi Zhang, & An‐Wu Xu. (2010). Synthesis and characterization of single-crystal Sb2S3 nanotubes via an EDTA-assisted hydrothermal route. Materials Chemistry and Physics. 123(1). 236–240. 35 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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