TEHRAN (ANA)- Microtechnology, which has entered Iran since 1990s, is now growing towards the indigenization of advanced and applied knowledge by implementing research projects, supporting knowledge-based companies, and developing the value chain in areas like microelectronics, energy harvesting, printed electronics, and bedside diagnostic tools.

TEHRAN (ANA)- A technological company in Iran has taken effective steps in foreign exchange savings and entrepreneurship with its innovation in manufacturing LED lamps.

TEHRAN (ANA)- A knowledge-based company in Iran succeeded in designing and indigenizing an industrial controller or ‘Control Valve’ used in different industries.

TEHRAN (ANA)- The secretary of the Development of Knowledge-Based Economy of Aerospace, Transportation and Urbanization announced that testing of the secondary radar and other active radars has been successfully carried out in the country’s airports.

TEHRAN (ANA)- University of Illinois researchers turned waste pomelo peels into self-powered devices that generate electricity and monitor body movements, offering sustainable solutions for energy harvesting and healthcare.

TEHRAN (ANA)- A knowledge-based company in Iran has manufactured a home-made product with advanced control capabilities called ‘Switchmode Cathodic Protection Rectifiers’ that provides the possibility of remote monitoring and control.

TEHRAN (ANA)- A knowledge-based company stationed at the  Science and Technology Park of the University of Tehran succeeded in designing and producing five pioneering home-made products to prevent frequent power-cuts in the country.

TEHRAN (ANA)- Researchers have achieved a breakthrough in wearable health technology by developing a novel self-healing electronic skin (E-Skin) that repairs itself in seconds after damage.

TEHRAN (ANA)- Iranian researchers at the University of Science and Culture of the Academic Center for Education, Culture and Research succeeded in presenting a new method for designing low-power and fast processors.

TEHRAN (ANA)- Researchers from SANKEN (The Institute of Scientific and Industrial Research) at Osaka University have discovered that temperature-controlled conductive networks in vanadium dioxide significantly improve the sensitivity of silicon devices to terahertz light.