SURFACE PLASMON DEVICES

Details for Australian Patent Application No. 2003223268 (hide)

Owner UNIVERSITY TECHNOLOGY CORPORATION

Inventors ESTES, Michael, J.; MODDEL, Garret

Pub. Number AU-A-2003223268

PCT Number PCT/US03/07636

PCT Pub. Number WO2003/081673

Priority 10/103,054 20.03.02 US

Filing date 12 March 2003

Wipo publication date 8 October 2003

International Classifications

H01L 029/15 Semiconductor devices specially adapted for rectifying, amplifying, oscillating or switching and having at least one potential-jump barrier or surface barrier

H01L 029/82 Semiconductor devices specially adapted for rectifying, amplifying, oscillating or switching and having at least one potential-jump barrier or surface barrier

H01L 029/88 Semiconductor devices specially adapted for rectifying, amplifying, oscillating or switching and having at least one potential-jump barrier or surface barrier

H01S 005/20 Semiconductor lasers

Event Publications

7 August 2003 Complete Application Filed

  Priority application(s): 10/103,054 20.03.02 US

13 November 2003 Application Open to Public Inspection

  Published as AU-A-2003223268

9 December 2004 Application Lapsed, Refused Or Withdrawn, Patent Ceased or Expired

  This application lapsed under section 142(2)(f)/See Reg. 8.3(3). Examination has not yet been requested or directed for this application. Note that applications or patents shown as lapsed or ceased may be restored at a later date.

Legal

The information provided by the Site not in the nature of legal or other professional advice. The information provided by the Site is derived from third parties and may contain errors. You must make your own enquiries and seek independent advice from the relevant industry professionals before acting or relying on any information contained herein. Check the above data against the Australian Patent Office AUSPAT database.

Next and Previous Patents/Applications

2003223269-Methods to increase nucleotide signals by Raman scattering

2003223267-NOVEL POLYMER/SUBSTRATE AND POLYMER/POLYMER INTERFACES AND METHODS OF MODELING AND FORMING SAME