Can Tao

758 total citations
21 papers, 640 citations indexed

About

Can Tao is a scholar working on Electrical and Electronic Engineering, Automotive Engineering and Materials Chemistry. According to data from OpenAlex, Can Tao has authored 21 papers receiving a total of 640 indexed citations (citations by other indexed papers that have themselves been cited), including 7 papers in Electrical and Electronic Engineering, 6 papers in Automotive Engineering and 6 papers in Materials Chemistry. Recurrent topics in Can Tao's work include Advanced Battery Materials and Technologies (7 papers), Advancements in Battery Materials (7 papers) and Advanced Battery Technologies Research (5 papers). Can Tao is often cited by papers focused on Advanced Battery Materials and Technologies (7 papers), Advancements in Battery Materials (7 papers) and Advanced Battery Technologies Research (5 papers). Can Tao collaborates with scholars based in China, Hong Kong and Australia. Can Tao's co-authors include Junjie Bao, Yiping Huang, XU Ge-wen, Minghao Gao, Chunhua Chen, Bin Li, Gang Qian, Liang Cheng, Zhu Chen and Chao Wang and has published in prestigious journals such as Journal of Power Sources, Electrochimica Acta and Frontiers in Immunology.

In The Last Decade

Can Tao

21 papers receiving 634 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Can Tao China 13 423 249 167 79 78 21 640
Amey Nimkar Israel 15 526 1.2× 159 0.6× 47 0.3× 155 2.0× 36 0.5× 37 701
Ziyan Zheng China 9 523 1.2× 189 0.8× 53 0.3× 68 0.9× 101 1.3× 14 680
Guowang Diao China 8 400 0.9× 91 0.4× 36 0.2× 202 2.6× 30 0.4× 12 535
Liying Qiu China 12 576 1.4× 96 0.4× 100 0.6× 114 1.4× 60 0.8× 25 822
Yong Joo Jun South Korea 15 85 0.2× 93 0.4× 238 1.4× 86 1.1× 60 0.8× 25 563
Danni Lan China 11 406 1.0× 31 0.1× 72 0.4× 146 1.8× 65 0.8× 12 564
Manu U. M. Patel Slovenia 16 1.0k 2.5× 489 2.0× 60 0.4× 192 2.4× 10 0.1× 19 1.1k
Zhuxin Zhou China 13 201 0.5× 23 0.1× 305 1.8× 295 3.7× 156 2.0× 20 584
Weiguo Huang China 9 217 0.5× 30 0.1× 71 0.4× 64 0.8× 39 0.5× 12 352
Jiao‐Jiao Cui China 10 180 0.4× 41 0.2× 54 0.3× 62 0.8× 55 0.7× 16 371

Countries citing papers authored by Can Tao

Since Specialization
Citations

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

Fields of papers citing papers by Can Tao

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Can Tao

This figure shows the co-authorship network connecting the top 25 collaborators of Can Tao. A scholar is included among the top collaborators of Can Tao 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 Can Tao. Can Tao 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.
Han, Bin, et al.. (2023). Attitude Calculation of Quadrotor UAV Based on Extended Kalman Filter and Complementary Filter. Journal of Physics Conference Series. 2460(1). 12149–12149. 2 indexed citations
2.
Tao, Can, et al.. (2022). Chimeric antigen receptor T cells applied to solid tumors. Frontiers in Immunology. 13. 984864–984864. 20 indexed citations
3.
Peng, Yanbo, Can Tao, Cai‐Ping Tan, & Ping Zhao. (2021). Mitochondrial targeted rhodium(III) complexes: Synthesis, characterized and antitumor mechanism investigation. Journal of Inorganic Biochemistry. 218. 111400–111400. 16 indexed citations
4.
Peng, Yanbo, Can Tao, Cai‐Ping Tan, & Ping Zhao. (2021). Inhibition of Aβ peptide aggregation by ruthenium(II) polypyridyl complexes through copper chelation. Journal of Inorganic Biochemistry. 224. 111591–111591. 15 indexed citations
5.
Fu, Bo, et al.. (2021). ZnO QD covalently coated, GSH/pH dual-responsive drug delivery system for chemotherapeutic/ionic synergistic therapy. Journal of Drug Delivery Science and Technology. 66. 102908–102908. 7 indexed citations
6.
Tao, Can, Fang Zhao, Ziwei Tang, et al.. (2021). Bi2O3 gated Fe3O4@ZrO2 core/shell drug delivery system for chemo/ionic synergistic therapeutics. Journal of Solid State Chemistry. 303. 122489–122489. 7 indexed citations
7.
Peng, Yanbo, et al.. (2021). Mitochondria-targeted cyclometalated rhodium(iii) complexes: synthesis, characterization and anticancer research. Dalton Transactions. 50(26). 9068–9075. 29 indexed citations
8.
Lin, Huichao, et al.. (2019). Aptamer-guided upconversion nanoplatform for targeted drug delivery and near-infrared light-triggered photodynamic therapy. Journal of Biomaterials Applications. 34(6). 875–888. 15 indexed citations
9.
Hu, Jun, Can Tao, Junjie Bao, et al.. (2019). Effects of Isosorbide on the Microphase Separation and Properties of Waterborne Polyurethane Coatings. Polymer Korea. 43(2). 169–180. 2 indexed citations
10.
Tao, Can, Zhen Luo, Junjie Bao, et al.. (2018). Effects of macromolecular diol containing different carbamate content on the micro-phase separation of waterborne polyurethane. Journal of Materials Science. 53(11). 8639–8652. 19 indexed citations
11.
Bao, Junjie, Can Tao, Chao Wang, et al.. (2018). Polycarbonate-based polyurethane as a polymer electrolyte matrix for all-solid-state lithium batteries. Journal of Power Sources. 389. 84–92. 101 indexed citations
12.
13.
Ren, Naiqing, et al.. (2018). Polyethylene glycol-based waterborne polyurethane as solid polymer electrolyte for all-solid-state lithium ion batteries. Materials & Design. 142. 221–228. 53 indexed citations
14.
Bao, Junjie, Can Tao, Ran Yu, et al.. (2017). Solid polymer electrolyte based on waterborne polyurethane for all‐solid‐state lithium ion batteries. Journal of Applied Polymer Science. 134(48). 24 indexed citations
15.
Tao, Can, Minghao Gao, Bin Li, et al.. (2017). A promising TPU/PEO blend polymer electrolyte for all-solid-state lithium ion batteries. Electrochimica Acta. 257. 31–39. 182 indexed citations
16.
17.
Ren, Naiqing, Can Tao, Qin Cheng, et al.. (2017). Effect of the soft and hard segment composition on the properties of waterborne polyurethane-based solid polymer electrolyte for lithium ion batteries. Journal of Solid State Electrochemistry. 22(4). 1109–1121. 34 indexed citations
18.
Tao, Can, et al.. (2016). Preparation of waterborne polyurethane with outstanding fluorescence properties and programmable emission intensity. Polymer International. 66(6). 770–778. 13 indexed citations
19.
Tao, Can, Hengjia Zhu, Peijun Xu, & Yunqing Zhang. (2015). Frequency-Dependent Hydraulic Engine Mount with Five-Parameters Fractional Derivative Model in Vehicle model. SAE technical papers on CD-ROM/SAE technical paper series. 1. 3 indexed citations
20.
Tao, Can, et al.. (2015). Waterborne Polyurethane Used as Binders for Lithium-Ion Battery with Improved Electrochemical Properties. Advanced materials research. 1090. 199–204. 7 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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