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PATENTS-PUBLICATIONS

Patents – Publications

BFP’s state of the art technology is reflected by a series of international patents and scientific articles in peer-reviewed journals.

PATENTS

  1. DURABLE PROTECTIVE EASY-TO-CLEAN NANO-COATING SYSTEMS, BFP Advanced Technologies EP, 21/10/2022.
  2. ANTI-SOILING NANO-COATING SYSTEMS WITH ENHANCED ANTIMICROBIAL ACTIVITY, BFP Advanced Technologies, PCT, 21/10/2022.
  3. RESTORATIION OF SOLID SUBSTRATES AND DEVELOPMENT OF AN ENDURANT PROTECTIVE HYDRO/OLEO PHOBIC TRANSLUCENT COATING SYSTEM”, BFP Advanced Technologies, Industrial Property Organization, 2014.
  4. N.D. Papadopoulos, “DIRECT HYDROGEN PRODUCTION FROM WATER”, Industrial Property Organization, 2012.
    N.D. Papadopoulos et.al. “VALUABLE PRODUCTS OBTAINED FROM RED MUD,”, PCT, WO/2010/079369, 2010.

PUBLICATIONS IN PEER-REVIEWED JOURNALS AND CONFERENCES

  1. Microstructure and Performance of Antibiofouling Coatings on High-Strength Steel Substrates Immersed in the Marine Environment”, P. Falara, N.D. Papadopoulos and P. Vourna, Micro, 2022., 2(2), pp. 277-294.
  2. “Morphology and Magnetic Properties of Rapidly Quenched Fe-B Alloys”, N. Konstantinidis, A. Fos, P. Svec, N.D. Papadopoulos, P. Vourna, E. Hristoforou, Journal of Magnetism and Magnetic Materials, 2022, 564 (1), 170054.
  3. Durable Self-Cleaning Coatings for Hard Surfaces, Dr. N.D. Papadopoulos, Dr. P. Vourna and S. Xafakis, Journal of Biomedical science, 2022, 4(6), 2209.
  4. Dr. N.D. Papadopoulos et.al., Designing a facile preparation mode for the development of transparent and durable anti-soiling coatings with enhanced anti-static properties, EUROMAT 2021: European Congress on Advanced Materials and Processes.
  5. BFP Advanced Technologies, Proposing a sustainable methodology for the development of a robust, anti-soiling transparent coating with enhanced antimicrobial properties for smooth, non-absorbent surfaces, Coatings Science International Conference, 2021.
  6. Dr. N.D Papadopoulos and Dr. P. Vourna, Proposing a sustainable strategy for the fabrication of robust anti-soiling coatings with enhanced antibacterial attributes for non-absorbent substrates, International journal of nanomaterials, nanotechnology and nanomedicine, 2022, 8 (1), pp. 1-4.
  7. Dr. N.D. Papadopoulos, S. Xafakis, P.P. Falara and Dr. P. Vourna, A versatile approach towards development of robust transparent antisoiling coatings with antimicrobial activity for various substrates. Athens Conference on Advances in Chemistry, 2022.
  8. Fur-like Phenomena Triggered by Anisotropic Magnetic Moieties of Multifunctional Antifouling Coatings”, Dr. P. Vourna, Dr. N.D. Papadopoulos, P. Falara and Dr. E. Hristoforou, XIII European Magnetic Sensors and Actuators Conference (EMSA 2022).
  9. Low drag antifouling coatings with enhanced protection against corrosion”, P. Vourna, P. Falara and N.D. Papadopoulos, ACAC, 2022.
  10. Dr. N.D. Papadopoulos, P.P. Falara and Dr. P. Vourna, A versatile approach towards development of easy-to-clean transparent nanocoating systems with pronounced anti-static properties for various substrates, submitted to AIMS Materials Science.
  11. Dr. N.D. Papadopoulos, Dr. P. Vourna, P. Koutsaftiki and S. Xafakis, Water-repellent, alkoxysilane-based coatings with enhanced protection against bio-decay of porous substrates, submitted to AIMS Materials Science.
  12. P. Vourna et. al., Dependence of magnetic permeability on residual stresses in welded steels, IEEE Transaction on Magnetics, 2017, vol. 53(4), pp. 1-4.
  13. E. Hristoforou, P. Vourna, A. Ktena, P. Švec, On the Universality of the Dependence of Magnetic Parameters on Residual Stresses in Steels, IEEE Transaction on Magnetics, 2016, vol. 52 (5), pp. 1-6.
  14. E.P. Koumoulos, V. Markakis, V.P. Tsikourkitoudi, C.A. Charitidis, N. Papadopoulos, E. Hristoforou, Tribological characterization of chemical vapor deposited Co and Co3O4 thin films for sensing reliability in engineering applications, Tribology International, 2015, vol. 82(A), pp. 89 – 94.
  15. P. Vourna et.al., An accurate evaluation of the residual stress of welded electrical steels with magnetic Barkhausen noise, Measurements, 2015, vol.71 (C), pp. 31-45.
  16. P. Vourna et.al., A novel approach of accurately evaluating residual stress and microstructure of welded electrical steels, NDT & E International, 2015, vol. 71, pp. 33 – 42.
  17. P. Vourna et. al., Correlation of Magnetic Properties and Residual Stress Distribution Monitored by X-ray & Neutron Diffraction in Welded AISI 1008 Steel Sheets, IEEE Transaction on Magnetics, 2015, vol. 51(1), pp. 1-4.
  18. P. Vourna, et.al., Residual Stress Analysis in Non-Oriented Electrical Steel Sheets by Barkhausen Noise Measurements, IEEE Transaction on Magnetics, 2014, vol. 50 (4), pp. 1-4.
  19. G.S.E. Antipas, N.D. Papadopoulos et.al., Experimental and first principles characterization of functionalized magnetic nanoparticles, A European Journal of Chemical Physics and Physical Chemistry, 2013, vol. 14 (9), pp. 1934 – 1942.
  20. N.D. Papadopoulos et.al., Effects of MOCVD thin cobalt films’ structure and surface characteristics on their magnetic behavior, Chemical Vapor Deposition, 2011, vol. 17 (7-9), pp. 211 – 220.
  21. N.D. Papadopoulos, H.S. Karayianni, P.E. Tsakiridis, M. Perraki, E. Sarantopoulou, E. Hristoforou, MOCVD cobalt oxide deposition from inclusion complexes: Decomposition mechanism, structure, and properties, Journal of the Electrochemical Society, 2011, vol. 158(1), pp. 5 – 13.
  22. N.D. Papadopoulos, H.S. Karayianni, P.E. Tsakiridis, M. Perraki, E. Hristoforou, Cyclodextrin inclusion complexes as novel MOCVD precursors for potential cobalt oxide deposition, Applied Organometallic Chemistry, 2010, vol. 24(2), pp. 112 – 121.
  23. N.D. Papadopoulos et.al., Structural and electrical properties of undoped SnO2 films developed by a low cost CVD technique with two different methods: Comparative study, Journal of Optoelectronics and Advanced Materials, 2005, vol. 7(5), pp. 2693 – 2706.
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