Profil

Vinx Nathan

Université de Mons - UMONS > Administration > Service d'Appui Pédagogique

Université de Mons - UMONS > Faculté des Sciences > Service de Chimie des Interactions Plasma-Surface

Main Referenced Co-authors
SNYDERS, Rony  (24)
THIRY, Damien  (24)
DAMMAN, Pascal  (15)
LECLERE, Philippe  (11)
Tessier, Pierre-Yves (6)
Main Referenced Keywords
Condensed Matter Physics (2); Plasma polymer films (2); 1-propanethiol (1); AFM (1); Al coatings (1);
Main Referenced Unit & Research Centers
CIRMAP - Centre d'Innovation et de Recherche en Matériaux Polymères (17)
Main Referenced Disciplines
Chemistry (24)
Physical, chemical, mathematical & earth Sciences: Multidisciplinary, general & others (1)

Publications (total 25)

The most downloaded
30 downloads
Thiry, D., Vinx, N., Aparicio, F. J., Tessier, P. Y., Moerman, D., Leclère, P., Godfroid, T., Deprez, S., & Snyders, R. (09 January 2020). The wrinkling concept applied to plasma deposited polymer-like thin films: a promising method for the fabrication of flexible electrodes. Plasma Processes and Polymers, 17, 200119-1 - 20019-6. https://hdl.handle.net/20.500.12907/15000

The most cited

9 citations (Scopus®)

Thiry, D., Vinx, N., Aparicio, F. J., Tessier, P. Y., Moerman, D., Leclère, P., Godfroid, T., Deprez, S., & Snyders, R. (09 January 2020). The wrinkling concept applied to plasma deposited polymer-like thin films: a promising method for the fabrication of flexible electrodes. Plasma Processes and Polymers, 17, 200119-1 - 20019-6. https://hdl.handle.net/20.500.12907/15000

Vinx, N., Tromont, D., Chauvin, A., LECLERE, P., Snyders, R., & Thiry, D. (31 October 2023). Designing Nanostructured Organic-Based Material by Combining Plasma Polymerization and the Wrinkling Approach. Langmuir, 39 (43), 15231 - 15237. doi:10.1021/acs.langmuir.3c01873
Peer Reviewed verified by ORBi

Vinx, N., Leclère, P., Poleunis, C., Delcorte, A., Mathieu, P., Cossement, D., Snyders, R., & Thiry, D. (2023). The influence of the substrate temperature on the growth mechanism of amine- and thiol-based plasma polymers: A comparative study. Plasma Processes and Polymers. doi:10.1002/ppap.202300138
Peer Reviewed verified by ORBi

Thiry, D., Vinx, N., Robin Dantinne, Damman, P., Leclère, P., Claude Poleunis, Arnaud Delcorte, & Snyders, R. (21 November 2022). Investigating the relationship between the mechanical properties of plasma polymer-like thin films and their glass transition temperature [Paper presentation]. 9th Plasma Science & Entrepreneurship Workshop, York, United Kingdom.

Vinx, N., Damman, P., Leclère, P., Poleunis, C., Delcorte, A., Cossement, D., Snyders, R., & Thiry, D. (08 November 2021). Investigating the relationship between the mechanical properties of plasma polymer-like thin films and their glass transition temperature [Paper presentation]. 8th Plasma Science & Entrepreneurship Workshop, Prague, Czechia.

Vinx, N., Damman, P., Leclère, P., Poleunis, C., Delcorte, A., Tessier, P.-Y., Snyders, R., & Thiry, D. (29 October 2021). Investigating the relationship between the mechanical properties of plasma polymer-like thin films and their glass transition temperature [Paper presentation]. EDT-MAIN/NanoWal: PhD Scientific Day, ULB, Belgium.

Vinx, N., Damman, P., Leclère, P., Bresson, B., Fretigny, C., Poleunis, C., Delcorte, A., Cossement, D., Snyders, R., & Thiry, D. (11 October 2021). Investigating the relationship between the mechanical properties of plasma polymer-like thin films and their glass transition temperature. Soft Matter, 17 (44), 10032-10041.
Peer Reviewed verified by ORBi

Vinx, N., Damman, P., Leclère, P., Tessier, P.-Y., Snyders, R., & Thiry, D. (06 March 2020). Tuning the mechanical properties of plasma polymers: an important step toward the control of the materials morphology [Paper presentation]. 13th One-day meeting of the Young Chemists of the SRC, Namur, Belgium.

Thiry, D., Vinx, N., Leclère, P., Damman, P., Tessier, P.-Y., & Snyders, R. (11 February 2020). The wrinkling concept applied to plasma polymers: an innovative way forcontrolling the nano-architecture of materials [Paper presentation]. PSE ('Plasma Surface Engineering' Satellite), Prague, Czechia.

Thiry, D., Vinx, N., Aparicio, F. J., Tessier, P. Y., Moerman, D., Leclère, P., Godfroid, T., Deprez, S., & Snyders, R. (09 January 2020). The wrinkling concept applied to plasma deposited polymer-like thin films: a promising method for the fabrication of flexible electrodes. Plasma Processes and Polymers, 17, 200119-1 - 20019-6.
Peer Reviewed verified by ORBi

Thiry, D., Vinx, N., Leclère, P., Damman, P., Tessier, P.-Y., & Snyders, R. (03 December 2019). The Wrinkling Concept Applied to Plasma Polymers: an Innovative Approach for the Fabrication of Flexible Electrodes [Paper presentation]. 2019 MRS Fall Meeting, Boston, United States - Massachusetts.

Thiry, D., Vinx, N., Aparicio Rebollo, F. J., Moerman, D., Lazzaroni, R., & Snyders, R. (14 November 2019). An innovative way for structuring plasma polymers at the nanoscale [Paper presentation]. 6th Plasma Science and Entrepreneurship Workshop, Dommeldange, Luxembourg.

Vinx, N., Damman, P., Moerman, D., Leclère, P., Cossement, D., Satriano, C., Snyders, R., & Thiry, D. (26 September 2019). An innovative approach for micro/nano structuring plasma polymer films [Paper presentation]. Plathinium 2019, Antibes, France.

Vinx, N., Damman, P., Leclère, P., Tessier, P.-Y., Snyders, R., & Thiry, D. (13 September 2019). From the growth temperarture control to the nanostructuring of plasma polymer films [Paper presentation]. Recent advancements on plasma-based methods for nanomaterials engineering, Mons, Belgium.

Thiry, D., Vinx, N., Damman, P., Tessier, P.-Y., & Snyders, R. (01 September 2019). Recent advances in the control of the nano-architecture of organic-based thin films [Paper presentation]. Euromat 2019, Stockholm, Sweden.

Vinx, N., Damman, P., Moerman, D., Robert, D., Snyders, R., & Thiry, D. (05 March 2019). How to generate and tune the plasma polymer film nanostructure ?: Mardi des Chercheurs 2019 [Poster presentation]. Mardi des Chercheurs 2019 (MdC2019), Mons, Belgium.

Thiry, D., Vinx, N., Aparicio, F. J., Moerman, D., Lazzaroni, R., Cossement, D., & Snyders, R. (06 January 2019). An innovative approach for micro/nano structuring plasma polymer films. Thin Solid Films, 672, 26-32. doi:10.1016/j.tsf.2018.12.050
Peer Reviewed verified by ORBi

Vinx, N., Damman, P., Moerman, D., Bresson, B., Fretigny, C., Snyders, R., & Thiry, D. (20 June 2018). The substrate temperature: a key parameter for tuning the mechanical properties of plasma polymer films [Paper presentation]. EMRS, Strasbourg, France.

Vinx, N., Satriano, C., Thiry, D., & Snyders, R. (2018). Study the interraction between biomolecules and functionalized plasma polymer films: Erasmus at the university of Catania, Italy.

Vinx, N., Damman, P., Bresson, B., Fretigny, C., Snyders, R., & Thiry, D. (27 March 2018). The substrate temperature: a key parameter for tuning the mechanical properties of plasma polymer films [Poster presentation]. Mardi des chercheurs, Université de Valenciennes, France.

Marchal, N., Hoyas, S., Saintmont, F., Vercouter, A., Leclercq, M., & Vinx, N. (2018). Journées Math-Sciences et festival des sciences 2018.

Vinx, N., Damman, P., Bresson, B., Fretigny, C., Snyders, R., & Thiry, D. (07 February 2018). The substrate temperature: a key parameter for tuning the mechanical properties of plasma polymer films [Poster presentation]. International workshop on Plasma diagnostics and Modelling, Mons, Belgium.

Thiry, D., Vinx, N., Aparicio Rebollo, F., Godfroid, T., Deprez, S., & Snyders, R. (29 October 2017). Tailoring the properties of plasma polymer varying the substrate temperature: a step toward the fabrication of micro/nano pattern [Paper presentation]. T HE AVS 6 4 TH I NTERNATIONAL S YMPOSIUM & E XHIBITION, Tampa, United States.

Thiry, D., Vinx, N., Aparicio Rebollo, F., Godfroid, T., Deprez, S., & Snyders, R. (30 August 2017). Tailoring the properties of plasma polymer varying the substrate temperature [Poster presentation]. 23th ISPC Conference, Montreal, Canada.

Thiry, D., Vinx, N., Aparicio Rebollo, F., Godfroid, T., Deprez, S., & Snyders, R. (20 August 2017). How to use viscoelastic plasma polymer coatings to design nano-patterned surfaces? [Paper presentation]. IMRC 2017, XXVI International Materials Research Congress, Cancun, Mexico.

Vinx, N., Thiry, D., Damman, P., & Snyders, R. (30 July 2017). Tailoring the properties of plasma polymer varying the substrate temperature: a step toward the fabrication of micro/nano pattern [Poster presentation]. 23rd International Symposium on Plasma Chemistry, Montreal, Canada.

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