Green Technology and Pilot Unit for Manufacturing of Ultra Clean Concentrated Colloids of Nano Metals

Vitaliy V. Sadokhin 1Ludmila Kisterska 1Olga B. Loginova 1Jacek Wojnarowicz 2

1. V. Bakul Institute for Superhard Materials NAS of Ukraine, 2, Autozavodska str., Kiev 04074, Ukraine
2. Polish Academy of Sciences, Institute of High Pressure Physics (UNIPRESS), Sokolowska 29/37, Warszawa 01-142, Poland


An innovative green technology of plasma dispergation of various metals  and one-step productive manufacturing cycle of nano metal concentrated colloids are described. Metals nano particles size and distribution control is fulfilled by managing of main parameters of localized plasma sputtering process. Physical model of metal nano dispergation by plasma jet and nano particles implantation into carrier liquids in vacuum is developed. The study of aggregation of nano metal particles in water solution of concentrated colloids on the glycerine bases as function of time is completed. The new productive multi-cycles unit for super concentrated nano metal colloids is created. The case of successful practical application of nano silver colloid in glycerine is described.


Legal notice
  • Legal notice:

    Copyright (c) Pielaszek Research, all rights reserved.
    The above materials, including auxiliary resources, are subject to Publisher's copyright and the Author(s) intellectual rights. Without limiting Author(s) rights under respective Copyright Transfer Agreement, no part of the above documents may be reproduced without the express written permission of Pielaszek Research, the Publisher. Express permission from the Author(s) is required to use the above materials for academic purposes, such as lectures or scientific presentations.
    In every case, proper references including Author(s) name(s) and URL of this webpage: must be provided.


Related papers
  1. Microwave reactors for nanoparticle's synthesis
  2. Ultra clean concentrated nanometals muster-butches in custom carrier liquides
  3. Bioactive GoHAP nanoparticles and their applications in medical implants technology
  4. Wykorzystanie metody NTA (Nanoparticle Tracking Analysis) w ocenie wielkości krążących mikrocząstek osocza i innych płynów fizjologicznych: pułapki i triki
  5. Microwave solvothermal synthesis of resorbable nano-HAp with controlled grain size.
  6. Liquid Nanometals Dispersions For Polymers Modification and Biocatalist of Microbial Fuel Cells
  7. Microwave Solvothermal Synthesis of High Quality Nanoparticles
  8. Microwave Solvothermal Synthesis of Nano Zinc Oxide Nanoparticles
  9. Microwave Solvothermal Technology (MSS) for nanoparticle synthesis
  10. Zaawansowana Charakteryzacja Nanocząstek
  11. [CEPT] Solvothermal synthesis nano zinc oxide in  microwave reactor MSS2
  12. [CEPT] Solvothermal synthesis and characterization of nanomaterials in the Laboratory of Nanostructures for Photonics and Nanomedicine, Center of Bio-Nanomaterials
  13. MSS synthesis of highly biocompatible nano-HAP and coating of 3D poymer scaffolds
  14. Characterization of nanomaterials according to EU recommendations, on the example of ZnO nanoparticles
  15. [CEPT] MSS synthesis of highly biocompatible nano-HAP with properties depending on the synthesis time.
  16. [CEPT] Studies of nanoparticles size distribution
  17. [CEPT] Studies of solubility of nanoparticles and stability of their suspension
  18. Iinvestigation of nanoparticles by DSC-TG methods accompanied by chemical analysis of emitted gas
  19. Presentation of the  Laboratory of Nanostructures for Photonics and Nanomedicine, Center of Bio-Nanomaterials, CePT
  20. ZnO nanoparticles effect on integrity of human endothelial cells
  21. Synteza nano-ZnO przy pomocy reaktora Mettler Toledo w Laboratorium Nanostruktur dla Fotoniki i Nanomedycyny CePT.
  22. Solwotermalna synteza domieszkowanego nanotlenku cynku dla projektu NanoFATE. Otrzymywanie wodnych nanozawiesin domieszkowanego tlenku cynku.
  23. Badania rozkładu wielkości cząstek i potencjału zeta w Laboratorium Nanostruktur dla Fotoniki i Nanomedycyny CePT
  24. Badanie stabilności i rozpuszczalności zawiesin z nano ZnO i nano ZnO:Co otrzymanych w  Laboratorium Nanostrutur dla Fotoniki i Nanomedycyny CePT
  25. Solvothermal synthesis of doped nano zinc oxide for the project NanoFATE.
  26. Solwotermalna synteza domieszkowanego nano tlenku cynku dla projektu NanoFATE.
  27. Solvothermal synthesis of nonstoichiometric hydroxyapatite nanoparticles
  28. Solvothermal synthesis of nonstoichiometric hydroxyapatite nanoparticles

Presentation: Oral at Nano and Advanced Materials Workshop and Fair, by Vitaliy V. Sadokhin
See On-line Journal of Nano and Advanced Materials Workshop and Fair

Submitted: 2013-06-03 16:16
Revised:   2013-06-07 15:43