People:
|
Position |
Contact Name |
|
Directing Manager: |
Saeed Sarkar |
|
R & D Manager: |
Reza Saber |
|
Production Manager: |
Farzam Farahmand |
|
Commercial Manager: |
Farideh Khangholi |
|
Electronics Dep. Manager: |
Faramarz Faridani |
|
Mechanics Dep. Manager: |
Ali Jafari |
Main Site: Incubation Center for
Medical Equipment and Devices (ICMED), Imam Khomeini Hospital, Tehran, Iran.
Main Market: Iran and Islamic countries
Year Established:
Research: 2003
Production &Marketing:
2006
Financial Year-end: March
Staffs:
|
|
Sale |
R
& D Dep. |
Production
Dep. |
QC
Dep. |
Financial
Dep. |
|
PhD: |
|
2 |
2 |
2 |
|
|
MSc: |
|
|
1 |
1 |
|
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MA: |
1 |
|
|
|
1 |
|
BSc: |
1 |
1 |
2 |
1 |
|
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BA: |
2 |
1 |
|
|
|
Company Overview:
Summary of main activities:
Nanotechnology System Corporation (NATSYCO) is a university based spin off
company formed by a group of academic scientists and researchers. It was established
as a research team since 2003 and then a practiced company since 2006. Natsyco’s
main fields of work are research, production and marketing of nanotechnology instruments,
devices and materials. The company is expected and has continued to gain an effective
presence in hi-tech market of Middle East and Islamic world. Participating in making
national wealth through development of hi-tech infrastructure, facilities and products
are our major aims.
Organization Structure:
NATSYCO has a dual organization structure, split by function and business lines.
- Function Line
- R & D Dep.
- Production Dep.
- QC Dep.
- Technical support Dep.
- Business Line
- Financial Dep.
- Commercial Dep.
- Sales
- Marketing
- Purchasing
Products and services:
Company provides a wide variety of medical and laboratory devices, special in the
field of nanotechnology:
1- Scanning Tunneling Microscopy (STM):
The Scanning Tunneling Microscope (STM) is a non-optical microscope
that scans an electrical probe over a surface to be imaged to detect a weak electric
current flowing between the tip and the surface.
The STM allows scientists to visualize regions of high electron density and
hence infer the position of individual atoms and molecules on the surface of a lattice.
Previous methods required arduous study of diffraction patterns and required interpretation
to obtain spatial lattice structures.
The STM is capable of higher resolution than its somewhat newer cousin, the
atomic force microscope (AFM). Both the STM and the AFM fall under the class of
scanning probe microscopes. The STM can obtain images of conductive surfaces at
an atomic scale 2 × 10−10 m or 0.2 nanometer and also can be used to manipulate
individual atoms, trigger chemical reactions, or reversibly produce ions by removing
or adding individual electrons from atoms or molecules.
2- Atomic Force Microscope (AFM):
The AFM much the same way a phonograph or profilometer works only on a much,
much smaller scale: a very position /9 denoted the “z” axis) reflects the topography
of the surface. By collection the height data for a succession of lines it is possible
to form a three dimensional map of the surface features. The research phase of this
project has been finalized and it is now in the developing stage.
3- Nano Bio sensor:
A nanobiosensor is a biosensor with dimensions on the nanometer
scale (1 nm=10-9 m). Nan biosensors are any biological, chemical, or physical sensory
points used to convey information about nanoparticles to the macroscopic world.
Research has been started since 2007 by our R & D department.
4- Magnetometers:
A magnetometer is a scientific instrument used to measure the strength
and/or direction of the magnetic field in the vicinity of the instrument Several
prototypes have been developed
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