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Characterization of Sputter-Deposited Iridium Oxide Coatings for Medical Implants

Sputter-Deposited Iridium Oxide Coatings

  • Why is IrOx interesting?
  • How can IrOx coatings be made?
  • Our own sputtering tests.
  • Characterization of the coatings.

Characterization of Sputter-Deposited Iridium Oxide Coatings for Medical Implants

T. Loose, M. Frericks, T. Giesel, G. Herklotz
W.C. Heraeus GmbH & Co. KG, Hanau, Germany
International Symposium on Iridium
2000 TMS Annual Meeting
Nashville, Tennessee
12 - 16 March 2000

englisch 0,26 MB
Datenblatt

Electrochemical properties and application stability of coatings for cardiac pacing and neuromodulation devices

Coatings have to be optimized in order to enhance the electrode tissue interface properties for cardiac pacing and neuromodulation devices. During the course of this study, various metallic and ceramic coatings, which can be used in these applications, were deposited and the influence of material, thickness and surface morphology on impedance characteristics and application stability was investigated by electrochemical impedance spectroscopy and cyclic voltametry.

Electrochemical properties and application stability of coatings for cardiac pacing and neuromodulation devices

H. Specht, F. Krüger, O. Keitel, M. Frericks
W. C. Heraeus GmbH, Hanau, Germany

englisch 1,14 MB
Datenblatt

Electrochemical properties and stability of PVD coatings for the application in cardiac and neurological stimulation

An overview about the opportunities to apply PVD coatings with different morphologies on implants will be given. Using magnetron sputtering technology single and multiple layers of metals, alloys, composites and ceramics can be deposited. Stimulation electrodes for example are coated to optimise the impedance properties of the electrode tissue interface for cardiac and neurological stimulation.

Electrochemical properties and stability of PVD coatings for the application in cardiac and neurological stimulation

H. Specht, F. Krüger, H. J. Wachter, O. Keitel, C. Leitold, M. Frericks
W. C. Heraeus GmbH, Hanau, Germany

englisch 1,14 MB
Datenblatt

Heraeus Medical Components Broschüre

Heraeus Medical Components Broschüre

englisch 0,34 MB
Broschüre

ISO 13485: 2003, Heraeus Medical Components

Zertifikat Nr. FM 86244
Standort: St. Paul, Minnesota, USA

englisch 0,36 MB
Zertifikate

ISO 13485:2003, Heraeus Materials, S.A.

Certificate CH06/0057
Standort: Schweiz

englisch 0,42 MB
Zertifikate

ISO 13485:2003, Heraeus Medical Components Caribe

Zertifikat Nr.: FM 76401
Standort: Puerto Rico

englisch 0,37 MB
Zertifikate

ISO 13485:2003, Heraeus Precious Metals, Medical Components Division

Zertifikat: Q2N 12 05 79308 001
Standort: Deutschland

deutsch englisch 0,38 MB
0,38 MB
Zertifikate

ISO 14001:2004, Heraeus Precious Metals, Medical Components Division

Zertifikat Nr. 12 104 39062 TMS
Standort: Deutschland

deutsch englisch 0,40 MB
0,40 MB
Zertifikate

Radioactive 192Ir Gamma-Sources Made from Enriched 191Ir

  • Advantages of 191Ir enrichment
  • The enrichment process
  • Powder consolidation and processing
  • Irradation properties
  • Medical applications

Radioactive 192Ir Gamma-Sources Made from Enriched 191Ir

W. Borneman, Mallinckrodt Medical B.V., Petten, Netherlands
M. Frericks, D. F. Lupton, W. C. Heraeus GmbH & Co. KG, Hanau, Germany
H. Rakhorst, Urenco Nederland B.V., Almelo, Netherlands
International Symposium on Iridium
2000 TMS Annual Meeting
Nashville, Tennessee
12 - 16 March 2000

englisch 1,27 MB
Datenblatt

Sicherheitsdatenblatt Beryllium

Seite: 1/6
Sicherheitsdatenblatt
gemäß 1907/2006/EG, Artikel 31
· Handelsname: Beryllium
· CAS-Nummer:
7440-41-7
· EINECS-Nummer:
231-150-7
· Indexnummer:
004-001-00-7
· Relevante identifizierte Verwendungen des Stoffs oder Gemischs und Verwendungen, von denen abgeraten
wird
· Verwendung des Stoffes / des Gemisches Halbfabrikat

englisch 0,05 MB
Material Sicherheitsdatenblatt

Structural properties of PVD coatings on implants and their influence on stimulation performance in pacing applications

An overview about the opportunities to apply PVD coatings with different morphologies on implants will be given. Using magnetron sputtering technology single and multiple layers of metals, alloys, composites and ceramics can be deposited. These coatings can improve biocompatibility or wear resistance and serve as an electrical insulation or diffusion barrier.

Structural properties of PVD coatings on implants and their influence on stimulation performance in pacing applications

H. Specht, F. Krüger, H. J. Wachter, O. Keitel, C. Leitold, M. Frericks
W. C. Heraeus GmbH & Co. KG, Hanau, Germany

englisch 0,48 MB
Datenblatt