L. Marot

3.8k total citations
141 papers, 2.6k citations indexed

About

L. Marot is a scholar working on Materials Chemistry, Electrical and Electronic Engineering and Nuclear and High Energy Physics. According to data from OpenAlex, L. Marot has authored 141 papers receiving a total of 2.6k indexed citations (citations by other indexed papers that have themselves been cited), including 101 papers in Materials Chemistry, 45 papers in Electrical and Electronic Engineering and 42 papers in Nuclear and High Energy Physics. Recurrent topics in L. Marot's work include Fusion materials and technologies (64 papers), Magnetic confinement fusion research (31 papers) and Metal and Thin Film Mechanics (30 papers). L. Marot is often cited by papers focused on Fusion materials and technologies (64 papers), Magnetic confinement fusion research (31 papers) and Metal and Thin Film Mechanics (30 papers). L. Marot collaborates with scholars based in Switzerland, France and Germany. L. Marot's co-authors include Roland Steiner, Ernst Meyer, G. De Temmerman, Lucas Moser, Daniel Mathys, Baran Eren, K. Bystrov, Andriy Romanyuk, Peter Oelhafen and J.J. Zielinski and has published in prestigious journals such as Nature Materials, ACS Nano and Applied Physics Letters.

In The Last Decade

L. Marot

137 papers receiving 2.5k citations

Author Peers

Peers are selected by citation overlap in the author's most active subfields. citations · hero ref

Author Last Decade Papers Cites
L. Marot 1.8k 729 647 620 450 141 2.6k
C.P. Lungu 1.4k 0.8× 331 0.5× 767 1.2× 377 0.6× 241 0.5× 167 2.0k
Kiyoshi Yatsui 1.4k 0.8× 1.3k 1.8× 1.0k 1.6× 345 0.6× 702 1.6× 258 3.2k
Yuichi Setsuhara 1.1k 0.6× 1.5k 2.0× 834 1.3× 130 0.2× 277 0.6× 175 2.5k
A. Iwase 2.0k 1.2× 536 0.7× 428 0.7× 229 0.4× 1.1k 2.4× 267 3.3k
Tatsuo Shikama 1.7k 1.0× 649 0.9× 301 0.5× 211 0.3× 311 0.7× 240 2.5k
Achim von Keudell 2.9k 1.7× 3.2k 4.4× 1.8k 2.7× 289 0.5× 901 2.0× 187 5.5k
D. N. Ruzic 2.3k 1.3× 1.6k 2.1× 1.2k 1.9× 1.2k 2.0× 820 1.8× 276 3.9k
Ch. Linsmeier 4.5k 2.6× 592 0.8× 1.5k 2.3× 892 1.4× 664 1.5× 318 5.7k
A. Vehanen 1.8k 1.0× 891 1.2× 1.9k 3.0× 103 0.2× 335 0.7× 88 3.1k
A.R. Ramos 1.1k 0.6× 417 0.6× 251 0.4× 381 0.6× 77 0.2× 92 2.1k

Countries citing papers authored by L. Marot

Since Specialization
Citations

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

Fields of papers citing papers by L. Marot

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of L. Marot

This figure shows the co-authorship network connecting the top 25 collaborators of L. Marot. A scholar is included among the top collaborators of L. Marot 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 L. Marot. L. Marot 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.
Dmitriev, A., et al.. (2025). Platinum as a first mirror material for fusion applications: a comparison with rhodium. Nuclear Fusion. 65(3). 36012–36012.
2.
Dmitriev, A., E. Faudot, J. Moritz, et al.. (2025). Radio-frequency capacitively coupled plasma parameters evolution as a function of magnetic field strength. Vacuum. 239. 114349–114349.
3.
Pawlak, Rémy, L. Marot, Vincent Luzet, et al.. (2025). On-Surface Synthesis and Characterization of Radical Spins in Kagome Graphene. ACS Nano. 19(4). 4768–4777. 3 indexed citations
4.
Dinu, Ionel Adrian, et al.. (2024). Thermocatalytic epoxidation by cobalt sulfide inspired by the material's electrocatalytic activity for oxygen evolution reaction. Catalysis Science & Technology. 14(16). 4550–4565. 3 indexed citations
5.
Faudot, E., et al.. (2024). Variations of plasma potential in RF discharges with DC-grounded electrode. Plasma Sources Science and Technology. 33(7). 75019–75019. 1 indexed citations
6.
Dmitriev, A., et al.. (2024). Morphological modification of Rh-C coatings upon low-energy Ar+ ion sputtering. Journal of Nuclear Materials. 604. 155502–155502. 1 indexed citations
7.
Hinaut, Antoine, Xuelin Yao, Yiming Song, et al.. (2024). Stable Au(111) Hexagonal Reconstruction Induced by Perchlorinated Nanographene Molecules. The Journal of Physical Chemistry C. 128(44). 18894–18900. 1 indexed citations
8.
Steiner, Roland, et al.. (2023). Effect of beryllium topography on BRDF measurements. Optical Materials. 147. 114715–114715. 3 indexed citations
9.
Moritz, J., S. Heuraux, N. Lemoine, et al.. (2023). Thermionic emission of a tungsten surface in high heat flux plasma: PIC simulations. Physics of Plasmas. 30(8). 3 indexed citations
10.
Steiner, Roland, Daniel Mathys, Marcin Kisiel, et al.. (2022). Enhanced formation of nanometric titanium cones by incorporation of titanium, tungsten and/or iron in a helium ion beam. Surfaces and Interfaces. 35. 102428–102428. 1 indexed citations
11.
Soni, Kunal, Roland Steiner, Lucas Moser, et al.. (2021). Study of wall re-deposition on DC-grounded ITER-relevant mirrors with RF plasma in a first mirror unit. Nuclear Fusion. 61(12). 126017–126017. 4 indexed citations
12.
Marot, L., et al.. (2018). Valence band behaviour of zirconium oxide, Photoelectron and Auger spectroscopy study. Scientific Reports. 8(1). 16251–16251. 78 indexed citations
13.
Thompson, Damien, Felix Lüönd, Lucas Moser, et al.. (2017). Restoring the Electrical Properties of CVD Graphene via Physisorption of Molecular Adsorbates. ACS Applied Materials & Interfaces. 9(29). 25014–25022. 27 indexed citations
14.
Marot, L., Roland Steiner, Andriy Romanyuk, et al.. (2017). Surface chemistry of rare-earth oxide surfaces at ambient conditions: reactions with water and hydrocarbons. Scientific Reports. 7(1). 43369–43369. 72 indexed citations
15.
Pawlak, Rémy, L. Marot, Ali Sadeghi, et al.. (2015). Chain-like structure elements in Ni40Ta60 metallic glasses observed by scanning tunneling microscopy. Scientific Reports. 5(1). 13143–13143. 10 indexed citations
16.
Tanyeli, İrem, L. Marot, Daniel Mathys, M. C. M. van de Sanden, & G. De Temmerman. (2015). Surface Modifications Induced by High Fluxes of Low Energy Helium Ions. Scientific Reports. 5(1). 9779–9779. 40 indexed citations
17.
Eren, Baran, L. Marot, Rémy Pawlak, et al.. (2012). Pure hydrogen low-temperature plasma exposure of HOPG and graphene: Graphane formation?. Beilstein Journal of Nanotechnology. 3. 852–859. 29 indexed citations
18.
Kisiel, Marcin, Enrico Gnecco, Urs Gysin, et al.. (2011). Suppression of electronic friction on Nb films in the superconducting state. Nature Materials. 10(2). 119–122. 122 indexed citations
19.
Marot, L., Rafael L. Schoch, Roland Steiner, & Ernst Meyer. (2010). Rhodium and silicon system: I. Glassy metallic alloy formation. Nanotechnology. 21(36). 365706–365706. 8 indexed citations
20.
Marot, L., Rafael L. Schoch, Roland Steiner, et al.. (2010). Rhodium and silicon system: II. Rhodium silicide formation. Nanotechnology. 21(36). 365707–365707. 13 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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