Gildas Diguet

732 total citations
48 papers, 598 citations indexed

About

Gildas Diguet is a scholar working on Electronic, Optical and Magnetic Materials, Biomedical Engineering and Mechanical Engineering. According to data from OpenAlex, Gildas Diguet has authored 48 papers receiving a total of 598 indexed citations (citations by other indexed papers that have themselves been cited), including 19 papers in Electronic, Optical and Magnetic Materials, 17 papers in Biomedical Engineering and 15 papers in Mechanical Engineering. Recurrent topics in Gildas Diguet's work include Dielectric materials and actuators (13 papers), Magnetic and transport properties of perovskites and related materials (11 papers) and Vibration Control and Rheological Fluids (11 papers). Gildas Diguet is often cited by papers focused on Dielectric materials and actuators (13 papers), Magnetic and transport properties of perovskites and related materials (11 papers) and Vibration Control and Rheological Fluids (11 papers). Gildas Diguet collaborates with scholars based in France, Japan and China. Gildas Diguet's co-authors include J.Y. Cavaillé, Eric Beaugnon, Hidekazu Shimotani, Yoshihiro Iwasa, Guoxing Lin, Gaël Sebald, Mickaël Lallart, Jincan Chen, Masami Nakano and Jean‐Marc Chenal and has published in prestigious journals such as SHILAP Revista de lepidopterología, Applied Physics Letters and Journal of Applied Physics.

In The Last Decade

Gildas Diguet

46 papers receiving 584 citations

Peers

Gildas Diguet
Kristin M. Charipar United States
Haruhiko ASANUMA Japan
Zhiming Hu China
Dong Yun Lee South Korea
Simo Pajovic United States
Khairudin Mohamed Malaysia
Eleftherios Gdoutos United States
Burkay Uzlu Germany
Davide Beretta Italy
Kristin M. Charipar United States
Gildas Diguet
Citations per year, relative to Gildas Diguet Gildas Diguet (= 1×) peers Kristin M. Charipar

Countries citing papers authored by Gildas Diguet

Since Specialization
Citations

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

Fields of papers citing papers by Gildas Diguet

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Gildas Diguet

This figure shows the co-authorship network connecting the top 25 collaborators of Gildas Diguet. A scholar is included among the top collaborators of Gildas Diguet 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 Gildas Diguet. Gildas Diguet 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.
Seveyrat, L., Florent Dalmas, Sébastien Livi, et al.. (2024). Effect of ionic liquid on soft epoxy-amine electroactuators. Polymer. 312. 127601–127601. 1 indexed citations
2.
Diguet, Gildas, et al.. (2024). Monte Carlo studies on geometrically confined skyrmions in nanodots: Stability and morphology under radial stresses. Computational Materials Science. 243. 113137–113137.
3.
Diguet, Gildas, J.Y. Cavaillé, Gildas Coativy, & Joël Courbon. (2024). Electric space charge threshold observation in polyurethane under high electric fields. Journal of Applied Physics. 135(22).
4.
Diguet, Gildas, et al.. (2023). Monte Carlo studies of skyrmion stabilization under geometric confinement and uniaxial strain. Journal of Magnetism and Magnetic Materials. 579. 170819–170819. 2 indexed citations
5.
Bernard, Chrystelle, Hidemasa Takana, Gildas Diguet, et al.. (2023). Thermal gradient in polymeric particles during the cold spray process. Computational Particle Mechanics. 10(6). 1697–1716. 2 indexed citations
6.
Coativy, Gildas, Gildas Diguet, L. Seveyrat, et al.. (2022). Role of charge carriers in long-term kinetics of polyurethane electroactuation. Smart Materials and Structures. 31(12). 125019–125019. 4 indexed citations
7.
Diguet, Gildas, et al.. (2022). Magneto Elasticity Modeling for Stress Sensors. SHILAP Revista de lepidopterología. 2(3). 288–305. 2 indexed citations
8.
Diguet, Gildas, et al.. (2021). Magnetic behavior of magneto-rheological foam under uniaxial compression strain. Smart Materials and Structures. 31(2). 25018–25018. 7 indexed citations
9.
Lallart, Mickaël, Hiroyuki Miki, Gaël Sebald, et al.. (2021). Heusler alloy-based heat engine using pyroelectric conversion for small-scale thermal energy harvesting. Applied Energy. 288. 116617–116617. 18 indexed citations
10.
Koibuchi, Hiroshi, Chrystelle Bernard, Jean‐Marc Chenal, et al.. (2021). Electromechanical properties of ferroelectric polymers: Finsler geometry modeling and a Monte Carlo study. Physics Letters A. 396. 127230–127230. 3 indexed citations
11.
Diguet, Gildas, et al.. (2020). Optimization of magneto-rheological elastomers for energy harvesting applications. Smart Materials and Structures. 29(7). 75017–75017. 16 indexed citations
12.
Diguet, Gildas, et al.. (2020). Analysis of magneto rheological elastomers for energy harvesting systems. International Journal of Applied Electromagnetics and Mechanics. 64(1-4). 439–446. 2 indexed citations
13.
Bernard, Chrystelle, Hidemasa Takana, Gildas Diguet, et al.. (2020). Thermal gradient of in-flight polymer particles during cold spraying. Journal of Materials Processing Technology. 286. 116805–116805. 15 indexed citations
14.
Diguet, Gildas, Gaël Sebald, Masami Nakano, Mickaël Lallart, & J.Y. Cavaillé. (2019). Magnetic particle chains embedded in elastic polymer matrix under pure transverse shear and energy conversion. Journal of Magnetism and Magnetic Materials. 481. 39–49. 18 indexed citations
15.
Koibuchi, Hiroshi, Chrystelle Bernard, Jean‐Marc Chenal, et al.. (2018). Mathematical Modeling of Rubber Elasticity. Journal of Physics Conference Series. 1141. 12081–12081. 2 indexed citations
16.
Jomaa, Mohamed Hedi, Lucian Roiban, Jie Xiao, et al.. (2018). Quantitative analysis of grafted CNT dispersion and of their stiffening of polyurethane (PU). Composites Science and Technology. 171. 103–110. 24 indexed citations
17.
Jomaa, Mohamed Hedi, L. Seveyrat, Laurent Lebrun, et al.. (2017). Difference between electrostriction kinetics, and mechanical response of segmented polyurethane-based EAP. Smart Materials and Structures. 26(3). 35049–35049. 5 indexed citations
18.
Diguet, Gildas, Eric Beaugnon, & J.Y. Cavaillé. (2012). Dependence of the magnetostriction of magnetic rheological elastomers on temperature. Smart Materials and Structures. 21(2). 25016–25016. 7 indexed citations
19.
Diguet, Gildas, Guoxing Lin, & Jincan Chen. (2012). Performance characteristics of a regeneration Ericsson refrigeration cycle using a magnetic composite as the working substance. International Journal of Refrigeration. 36(3). 958–964. 15 indexed citations
20.
Fang, Wei, et al.. (2011). Performance optimization of irreversible ferromagnetic Stirling heat pumps. International journal of energy and environmental engineering. 2(2). 77–83. 1 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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