1. Chemical products with high purity
Zinc Oxide (ZnO) Powder
Manufactured in our facility with full control of the synthesis process and strict adherence to scientific specifications, this ZnO powder is engineered to meet the most demanding requirements of R&D and advanced industries. It has been specifically developed for applications where purity, particle morphology, and reproducibility are critical.
Main fields of application:
- Energy Research: Key material for photovoltaic cells.
- Optoelectronics: Additive for displays and LEDs.
- Medical & Pharmaceuticals: Active ingredient in skincare
products (e.g., sunscreens). - Catalysis: Catalyst in chemical reactions.
- Scientific Research: Raw material for studies in materials science and nanotechnology.
- Higher Education: For practical experiments in materials chemistry.
Graphene
Our locally designed and manufactured electric arc discharge system delivers a cutting-edge solution for producing high-purity graphene (≥ 87% carbon confirmed by XPS). Compact and cost-effective, it’s ideal for research labs, training centers, and pilot production lines working on advanced nanomaterials. Combining reliability, scalability, and ease of use, this system enables users to explore, develop, and master next-generation graphene applications.
Main fields of application:
- Research and development in advanced nanomaterials.
- Training and education in graphene synthesis and characterization.
- Pilot-scale or medium-scale production of high purity graphene.
- Development of innovative composites, coatings, and
electronic materials. - Fundamental studies of carbon-based nanostructures.
2.Machines
RF Magnetron Sputtering System
RF magnetron sputtering system for the deposition of thin films on different substrates, in order to achieve the required properties with high precision.
| Parameters | Descreption |
| Sputtering type | RF Magnetron (13,56 MHz) |
| Gaz | Argon (99,9%) et Oxygène (99,9%) |
| Pressure | 10−6 mbar |
| Target | Pure materials 99,5% (∅ 50 mm) |
| Distance Target – substrate | 30 mm |
| RF Source | Diener RFG13.56/300 |
| Vacuum system | Primary pump + Turbo molecular pump Welch |
| Cooling system | Open circuit |
| Temperature control | Thermocouple type T (Cu/Constantan) |
| Pressure measurement | Pirani and Jauge Penning gauges) |
Main fields of application:
- Energy Research: Key material for photovoltaic cells.
- Optoelectronics: Additive for displays and LEDs.
- Medical & Pharmaceuticals: Active ingredient in skincare
products (e.g., sunscreens). - Catalysis: Catalyst in chemical reactions.
- Scientific Research: Raw material for studies in materials science and nanotechnology.
- Higher Education: For practical experiments in materials chemistry.
Evaporator systems ( one and three sources)
Deposition of one thin film or simultaneous deposition of three different thin films for the fabrication of perovskite and organic solar cells.
Characteristics :
- Current generator
- Ultimate vacuum : 10⁻⁵ torr
- Heating by Joule effect
- Cooling system
Applications
- Microelectronics: deposition of conductive or barrier layers (Al, Au,Cr, Ni, etc.).
- Optics: coatings for mirrors, lenses, anti-reflection layers.
- Sensors & MEMS: creating functional thin layers.
- Surface engineering: decorative or protective coatings on tools, jewelry, or components.
- Research labs: producing thin films for experiments in materials science and physics.