Weiyu Cao

687 total citations
37 papers, 553 citations indexed

About

Weiyu Cao is a scholar working on Mechanical Engineering, Materials Chemistry and Polymers and Plastics. According to data from OpenAlex, Weiyu Cao has authored 37 papers receiving a total of 553 indexed citations (citations by other indexed papers that have themselves been cited), including 25 papers in Mechanical Engineering, 16 papers in Materials Chemistry and 9 papers in Polymers and Plastics. Recurrent topics in Weiyu Cao's work include Fiber-reinforced polymer composites (24 papers), Graphene research and applications (13 papers) and Polymer crystallization and properties (5 papers). Weiyu Cao is often cited by papers focused on Fiber-reinforced polymer composites (24 papers), Graphene research and applications (13 papers) and Polymer crystallization and properties (5 papers). Weiyu Cao collaborates with scholars based in China, Japan and Sweden. Weiyu Cao's co-authors include Lianghua Xu, Hongxin Li, Lingqiang Kong, Hui Liu, Shijie Xiao, Chenggao Li, Biaohua Chen, Lei Shuai, Bin Wang and Bin Wang and has published in prestigious journals such as Macromolecules, Chemical Communications and ACS Applied Materials & Interfaces.

In The Last Decade

Weiyu Cao

34 papers receiving 546 citations

Peers — A (Enhanced Table)

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

Name	h						Papers	Cites
Weiyu Cao China	13	355	240	195	131	83	37	553
Kishor Gupta United States	12	402 1.1×	296 1.2×	207 1.1×	85 0.6×	113 1.4×	19	636
Qingsong Lian China	13	296 0.8×	225 0.9×	317 1.6×	80 0.6×	69 0.8×	22	637
Haijuan Kong China	16	344 1.0×	162 0.7×	299 1.5×	148 1.1×	58 0.7×	49	653
Rogers Tusiime China	13	236 0.7×	146 0.6×	248 1.3×	126 1.0×	108 1.3×	17	600
Seong Yun Kim South Korea	15	169 0.5×	246 1.0×	143 0.7×	108 0.8×	54 0.7×	26	508
B.D.S. Deeraj India	14	186 0.5×	159 0.7×	290 1.5×	126 1.0×	93 1.1×	26	570
Baowei Qiu China	15	376 1.1×	282 1.2×	177 0.9×	154 1.2×	189 2.3×	36	693
Youquan Ling China	15	294 0.8×	195 0.8×	229 1.2×	124 0.9×	72 0.9×	29	536

Countries citing papers authored by Weiyu Cao

Since Specialization

Citations

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

Fields of papers citing papers by Weiyu Cao

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Weiyu Cao

This figure shows the co-authorship network connecting the top 25 collaborators of Weiyu Cao. A scholar is included among the top collaborators of Weiyu Cao 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 Weiyu Cao. Weiyu Cao is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

Tian, Fang, Weiyu Cao, Xiaohan Liu, Zixin Liu, & Xianyong Cao. (2025). A lacustrine surface-sediment pollen dataset covering the Tibetan Plateau and its potential in past vegetation and climate reconstructions. Earth system science data. 17(10). 5529–5542.

Zhou, Tiancheng, et al.. (2025). Holocene dust storms and their driving mechanisms on the northeastern Tibetan Plateau. Global and Planetary Change. 253. 104946–104946.

Ouyang, Ming, Xi Yu, Jun Zhong, et al.. (2025). Injectable sodium alginate/4-arm polyethylene glycol-lipoic acid double-network hydrogel loading Ca2+-tannic acid nanocomposite treats periodontitis via anti-bacteria, ROS scavenging and osteogenesis. International Journal of Biological Macromolecules. 307(Pt 1). 141841–141841. 1 indexed citations

Li, Minyong, Siyao Liu, Weiyu Cao, et al.. (2025). Representation of vegetation and climate by modern pollen assemblages on the south-eastern Tibetan Plateau. Review of Palaeobotany and Palynology. 337. 105329–105329. 3 indexed citations

Xie, Miaomiao, et al.. (2024). Synergistic effect of hydrogen-bond interaction and interface regulation for stable aqueous sodium-ion batteries. Chemical Communications. 60(98). 14672–14675.

Xie, Haonan, et al.. (2023). Surface modification of carbon fiber by vinyl functionalized silane to enhance the interfacial adhesion with rubber via co-vulcanization. Surfaces and Interfaces. 43. 103591–103591. 10 indexed citations

Liu, Junhui, Zhennan Zhao, Quanwei Li, et al.. (2023). Thermally Activated Delayed Fluorescence Emitters Based on a Special Tetrahedral Silane Core. ACS Applied Materials & Interfaces. 15(44). 51474–51482. 5 indexed citations

Sun, Shichao, et al.. (2022). In Situ Electrothermal Approach for the Synthesis of High-Performance Carbon Fiber. ACS Sustainable Chemistry & Engineering. 10(41). 13849–13856. 3 indexed citations

Sun, Shichao & Weiyu Cao. (2022). Evolution of microstructure within carbon fiber during pre-carbonization revealed by mean field theory. Composites Communications. 34. 101272–101272. 8 indexed citations

10.

Pan, Feifei, et al.. (2022). Design and construction for the interface between carbon fiber and epoxy via vinyl alkoxysilane modification. Composites Part A Applied Science and Manufacturing. 162. 107148–107148. 14 indexed citations

11.

Zhang, Zhenghe, Weimin Yang, Lisheng Cheng, et al.. (2020). Carbon Fibers with High Electrical Conductivity: Laser Irradiation of Mesophase Pitch Filaments Obtains High Graphitization Degree. ACS Sustainable Chemistry & Engineering. 8(48). 17629–17638. 57 indexed citations

12.

Pan, Feifei, et al.. (2020). Research on the mechanism of gel accelerator on gel transition of PAN solution by rheology and dynamic light scattering. e-Polymers. 21(1). 1–6. 2 indexed citations

13.

Cao, Weiyu, et al.. (2020). Development and Prospect of High Performance Polymer Composites in China. Strategic Study of CAE. 22(5). 112–112. 3 indexed citations

14.

Yang, Juekuan, et al.. (2019). Measurement of intrinsic thermal conductivity of carbon fiber using direct electrical heating method. Review of Scientific Instruments. 90(11). 114902–114902. 9 indexed citations

15.

Li, Hongxin, et al.. (2019). Enhancing the interfacial properties of high-modulus carbon fiber reinforced polymer matrix composites via electrochemical surface oxidation and grafting. Composites Part A Applied Science and Manufacturing. 130. 105719–105719. 94 indexed citations

16.

Cao, Weiyu, et al.. (2016). The octanol/water distribution coefficients of ardipusilloside-I and its metabolites, and their permeation characteristics across Caco-2 cell monolayer. Chemistry Central Journal. 10(1). 29–29. 2 indexed citations

17.

Shuai, Lei, et al.. (2016). The conjugated plane formed in polyacrylonitrile during thermal stabilization. Journal of Applied Polymer Science. 133(36). 27 indexed citations

18.

Cao, Li, Mingjie Zhang, Hongqing Niu, et al.. (2016). Structural relationship between random copolyimides and their carbon fibers. Journal of Materials Science. 52(4). 1883–1897. 19 indexed citations

19.

Kong, Lingqiang, Hui Liu, Weiyu Cao, & Lianghua Xu. (2014). PAN fiber diameter effect on the structure of PAN-based carbon fibers. Fibers and Polymers. 15(12). 2480–2488. 61 indexed citations

20.

Wang, Bin, et al.. (2011). Evolution of aggregation structure of polyacrylonitrile fibers in the cyclization reaction. Journal of Applied Polymer Science. 124(4). 3413–3418. 28 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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