Invited Seminars
1. The
apparent metal-insulator transition in two-dimensional systems, Condensed
matter physics seminar,
2. The
apparent metal-insulator transition in two-dimensional systems, Condensed
matter physics seminar, Weizmann Institute,
3. The
apparent metal-insulator transition in two-dimensional systems, Condensed
matter physics seminar, Technion,
4. The
apparent metal-insulator transition in
two-dimensional systems, Condensed matter seminar, City College of New-York,
New-York, New-York, USA (November, 1998).
5. The
metal, the insulator and the transitions
in 2D hole systems in GaAs, CAM Seminar, University
of Washington, Seattle, WA, USA (March 1999).
6. Micromachined Neural Implants, Sensors and Sensor Systems
Seminar, Department ofElectrical Engineering,
7. Towards
Micro-Machined Intracellular Neural Implants,
8. Micro-Machined
Intracellular Neural Implants (Condensed Matter Physics Seminar), Weizmann
Institute,
9. Towards
Micro-Machined Intracellular Neural Implants,
10. Surface
Chemistry Based MEMS,
11. Surface
modification techniques for MEMS applications, Physics department,
12. Surface
modification techniques for MEMS applications, Tel-AvivUniversity,
Department of electrical engineering,
13. MEMS
Modules for MLSC Applications, MLSC CEGS Seminar,
14. Surface
modification and self-assembly in MEMS and NEMS applications,
15. Surface
modification and self-assembly in MEMS and NEMS applications, Material science
seminar,
16. Engineered
self-organization of neural networks, Institute for Microsystem
Technology, University of
17. Engineered
self-organization of neural networks, Nanotech seminar,
18. Engineered
self-organization of neural networks, Material science seminar,
19. Micro
and nano fabricated interfaces for neural networks, Physical chemistry seminar,
TAU (March 31, 2005).
20. Micro
and nano fabricated interfaces for neural networks,
21. Micro
and nano fabricated interfaces for real (and not so real) neural networks, Max
Planck Institute,
22. Interfacing
Carbon Nanotubes with Neuronal Systems, Nanoseminar,
23. Engineering
cultured neural networks, Condensed matter physics seminar,
24. Compact
self-wired cultured neural networks, The institute of
neuroscience,
25. Compact
self-wired cultured neural networks, Biological and Soft Systems, Cavendish
Laboratory at the
26. Carbon
nanotube electrodes, Materials engineering seminar, Technion,
(21 December, 2006).
27. Compact
self-wired cultured neural networks, Condensed Matter seminar,
28. Self-assembly
and self-wiring of engineered biological and electrical networks, Monthly
Seminar Series of the Russell Berrie Nanotechnology
Institute (RBNI), The Technion, Israel Institute of
Technology (December 19, 2007).
29. Engineering
neural networks, The Department of Molecular Microbiology & Biotechnology,
TAU, (December 11, 2007).
30. Engineering
neural networks, The Department of Molecular Microbiology and Biotechnology,
TAU, (January 1, 2008).
31. Self-Assembly
of Biological and Electrical Networks, Materials and Interfaces seminar, WeizmannInstitute of Science (February 13, 2008).
32. Towards
a Bionic Eye: Carbon Nanotube Based Micro Electrode Arrays for Retinal
Interfacing Applications, Seoul National University(SNU)engineering school
(September 25, 2008))
33. Mechanics
of carbon nanotube structures and devices, Tel-Aviv University, Mechanical
engineering seminar, (January 5, 2009).
34. Carbon
nanotubes based neurochips, Ben-Gurion University,
nano seminar, (February 11, 2009).
35. Carbon
nanotube based devices for neuronal interfacing applications, Graduate research
school on ”Electronic properties of carbon based nanostructures”, University of
Regensburg (January 21, 2011).