Neyco is a French company based in Vanves and specialized in high vacuum, inorganic materials and thin films.
The company was created in July 1954. It was previously created to allow French firms to access international semiconductors. Nowadays, Neyco has specialized in vacuum and thin films. Thin films stand for films that are smaller than one micron deposited under vacuum, espacially by thermal evaporation, electron beam, sputtering and/or laser ablation. The firm is a bridge for vacuum and materials between industries and between industrial and scientific research laboratories (such as the SNRC). The current CEO has been elected Assistant Secretary at the Société Française du Vide. Neyco is also a member of the Society of Vacuum Coaters and of the European Material Research Society
Inorganic materialsLubricationSiliconesThin filmsVacuumPatents and awards
Methods for Coating a Substrate and Forming a Colored Film and Related Device(2007)In June 2014, Neyco received the innovation award presented by the Société Française du Vide.In June 2015, Neyco received the Award for Best Project Success at the ACC Silicones Distributor Seminar.A. Allemand, E. Guillermin, Y. Le Petitcorps. Method for preparing a carbide ceramics multilayer coating on, and optionally in, a part made of a carbon-containing material using a reactive melt infiltration RMI technique (2016)G. Bernard-Granger and al. Thermoelectric properties of an N-type silicon–germanium alloy related to the presence of silica nodules dispersed in the microstructure. ScienceDirect, Volume 93 Pages 40-43 (2014)A. Aassimea, F. Hamoudaa, I. Richardt, F. Baylea, V. Pillarda, P. Lecoeura, P. Auberta, D. Bouchiera. Anti-charging process for electron beam observation and lithography. Microelectronic Engineering, Volume 110, October 2013J. Dejeu, J. Abadie, E. Piat, P. Rougeot, S. Oster, P. Stempflé & J. Takadoum. Development of a new nanotribometer with multi asperity contact. Nordtrib (2010), 1-9, quoted page 2.B. Vincent, A. Boudrioua, R. Kremer, P. Moretti. Second harmonic generation in helium-implanted periodically poled lithium niobate planar waveguides. Optics Communications Volume 247 Pages 461–469 (2005)
