Jaromír Marek

547 total citations
19 papers, 450 citations indexed

About

Jaromír Marek is a scholar working on Biomedical Engineering, Mechanical Engineering and Biomaterials. According to data from OpenAlex, Jaromír Marek has authored 19 papers receiving a total of 450 indexed citations (citations by other indexed papers that have themselves been cited), including 9 papers in Biomedical Engineering, 8 papers in Mechanical Engineering and 7 papers in Biomaterials. Recurrent topics in Jaromír Marek's work include Phase Change Materials Research (7 papers), Membrane-based Ion Separation Techniques (5 papers) and Electrospun Nanofibers in Biomedical Applications (5 papers). Jaromír Marek is often cited by papers focused on Phase Change Materials Research (7 papers), Membrane-based Ion Separation Techniques (5 papers) and Electrospun Nanofibers in Biomedical Applications (5 papers). Jaromír Marek collaborates with scholars based in Czechia, China and Canada. Jaromír Marek's co-authors include Juming Yao, Jiřı́ Militký, Hou‐Yong Yu, Somia Yassin Hussain Abdalkarim, Ying Guan, Juming Yao, Ming Zhang, Feng Tang, Chuang Wang and Mohanapriya Venkataraman and has published in prestigious journals such as RSC Advances, International Journal of Biological Macromolecules and Journal of Applied Polymer Science.

In The Last Decade

Jaromír Marek

19 papers receiving 441 citations

Peers — A (Enhanced Table)

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

Name h Career Trend Papers Cites
Jaromír Marek Czechia 11 151 131 122 99 95 19 450
Donglin Tian China 11 264 1.7× 129 1.0× 92 0.8× 80 0.8× 86 0.9× 12 564
Bengang Li China 14 278 1.8× 104 0.8× 227 1.9× 116 1.2× 91 1.0× 31 615
Pengfei Fei China 9 176 1.2× 160 1.2× 150 1.2× 107 1.1× 59 0.6× 12 522
Xinquan Zou China 14 115 0.8× 99 0.8× 240 2.0× 133 1.3× 88 0.9× 27 572
Dingsheng Wu China 13 143 0.9× 158 1.2× 255 2.1× 78 0.8× 101 1.1× 38 694
Ping Ren China 11 161 1.1× 141 1.1× 160 1.3× 59 0.6× 116 1.2× 23 575
Hacer Doğan Türkiye 13 150 1.0× 105 0.8× 212 1.7× 74 0.7× 83 0.9× 20 540
Xinpeng Che China 13 305 2.0× 83 0.6× 349 2.9× 63 0.6× 143 1.5× 16 716
Sittipong Amnuaypanich Thailand 16 114 0.8× 206 1.6× 227 1.9× 119 1.2× 147 1.5× 40 612
Xuexia Zhang China 15 232 1.5× 104 0.8× 140 1.1× 147 1.5× 105 1.1× 25 714

Countries citing papers authored by Jaromír Marek

Since Specialization
Citations

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

Fields of papers citing papers by Jaromír Marek

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Jaromír Marek

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

All Works

19 of 19 papers shown
1.
2.
Wang, Shuoshuo, Yini Fang, Lina Wang, et al.. (2021). Reversibly thermochromic and high strength core‐shell nanofibers fabricated by melt coaxial electrospinning. Journal of Applied Polymer Science. 138(21). 25 indexed citations
3.
Fan, Xuemeng, Ying Guan, Hou‐Yong Yu, et al.. (2020). Shape-Stabilized Cellulose Nanocrystal-Based Phase-Change Materials for Energy Storage. ACS Applied Nano Materials. 3(2). 1741–1748. 51 indexed citations
4.
Wang, Shuoshuo, et al.. (2020). A waterproof and breathable nanofibrous membrane with thermal‐regulated property for multifunctional textile application. Journal of Applied Polymer Science. 138(19). 17 indexed citations
5.
Huang, Junwen, Hou‐Yong Yu, Somia Yassin Hussain Abdalkarim, et al.. (2020). Electrospun Polyethylene Glycol/Polyvinyl Alcohol Composite Nanofibrous Membranes as Shape-Stabilized Solid–Solid Phase Change Materials. Advanced Fiber Materials. 2(3). 167–177. 51 indexed citations
6.
Chen, Yuxiang, Somia Yassin Hussain Abdalkarim, Hou‐Yong Yu, et al.. (2020). Double stimuli-responsive cellulose nanocrystals reinforced electrospun PHBV composites membrane for intelligent drug release. International Journal of Biological Macromolecules. 155. 330–339. 52 indexed citations
7.
8.
Guan, Ying, et al.. (2020). Fabrication of a novel temperature sensitive phase change system based on ZnO@PNIPAM core-satellites and 1-tetradecanol as gatekeeper. Materials Science for Energy Technologies. 3. 482–486. 9 indexed citations
9.
Guan, Ying, Hou‐Yong Yu, Somia Yassin Hussain Abdalkarim, et al.. (2019). Green one-step synthesis of ZnO/cellulose nanocrystal hybrids with modulated morphologies and superfast absorption of cationic dyes. International Journal of Biological Macromolecules. 132. 51–62. 85 indexed citations
10.
Wang, Yan, Yini Fang, Ming Zhang, et al.. (2019). Development of core–sheath structured smart nanofibers by coaxial electrospinning for thermo-regulated textiles. RSC Advances. 9(38). 21844–21851. 32 indexed citations
11.
Marek, Jaromír, et al.. (2019). Optimizing porous material in shock electrodialysis unit. Desalination and Water Treatment. 170. 38–45. 5 indexed citations
12.
Yao, Juming, Guocheng Zhu, Jiřı́ Militký, et al.. (2019). A novel method for producing bi-component thermo-regulating alginate fiber from phase change material microemulsion. Textile Research Journal. 90(9-10). 1038–1044. 10 indexed citations
13.
Zhang, Guoqing, Guojin Liu, Lan Zhou, et al.. (2018). Preparation and evaluation of thermo-regulating bamboo fabric treated by microencapsulated phase change materials. Textile Research Journal. 89(16). 3387–3393. 12 indexed citations
14.
Venkataraman, Mohanapriya, Rajesh Mishra, Jiřı́ Militký, et al.. (2018). Electrospun nanofibrous membranes embedded with aerogel for advanced thermal and transport properties. Polymers for Advanced Technologies. 29(10). 2583–2592. 36 indexed citations
15.
Naeem, Salman, Vijay Baheti, Jakub Wiener, & Jaromír Marek. (2016). Removal of methylene blue from aqueous media using activated carbon web. Journal of the Textile Institute. 108(5). 803–811. 31 indexed citations
16.
Marek, Jaromír, et al.. (2014). Influence of water content on properties of a heterogeneous bipolar membrane. Desalination and Water Treatment. 56(12). 3269–3272. 6 indexed citations
17.
Marek, Jaromír, et al.. (2014). Clogging of the electrodeionization chamber. Desalination and Water Treatment. 56(12). 3259–3263. 5 indexed citations
18.
Marek, Jaromír, et al.. (2009). CATION AND ANION EXCHANGERS FROM NANOFIBROUS POLYSTYRENE FOR FAST WATER TREATMENT. Digital Repository (National Repository of Grey Literature). 3 indexed citations
19.
Novotná, Zuzana, et al.. (1999). X-ray analysis of residual stresses in TiN coatings. Surface and Coatings Technology. 116-119. 424–427. 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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