Profil

Vinx Nathan

Université de Mons - UMONS > Administration > Service d'Appui P?agogique

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


Main Referenced Co-authors
Snyders, Rony  (22)
Thiry, Damien  (22)
Damman, Pascal  (15)
Leclère, Philippe  (10)
Tessier, Pierre-Yves (6)
Main Referenced Unit & Research Centers
CIRMAP - Centre d'Innovation et de Recherche en Matériaux Polymères (17)
Main Referenced Disciplines
Chemistry (23)

Publications (total 23)

The most downloaded
20 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
6 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

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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 presented at 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 session presented at 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 presented at 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 session presented at 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 session presented at 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 presented at 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 session presented at 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 presented at 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 session presented at 23rd International Symposium on Plasma Chemistry, Montreal, Canada.

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