Vision :

  • To become a leading global research hub for innovative radiation detection and shielding technologies by 2035. Set benchmarks in detector miniaturization, smart shielding, and adaptive radiation protection systems.
  • To pioneer the use of novel nanomaterials, composites, and metamaterials in radiation protection and detection. Enable lightweight, multifunctional shielding and ultra-sensitive detection platforms for aerospace, defense, and healthcare sectors.
  • To contribute significantly to global nuclear safety, homeland security, and sustainable energy programs through cutting-edge materials innovation. Support safer nuclear power generation, space exploration, and post-radiation disaster recovery through breakthrough shielding and detection solutions.

Mission :

  • To develop advanced radiation detection materials and systems with high sensitivity, fast response time, and stability. Enhance the accuracy and reliability of radiation monitoring across nuclear, medical, industrial, and environmental applications.
  • To optimize the efficiency of radiation shielding materials through innovative design, computational modeling, and experimental validation. Reduce exposure risks by improving material performance against gamma rays, neutrons, and charged particles.
  • To integrate multidisciplinary approaches — including materials science, physics, and engineering to solve real-world radiation protection challenges. Promote cross-domain collaboration for holistic solutions in radiation safety and detection.
  • To train researchers and professionals in developing, testing, and applying next-generation radiation detectors and shielding technologies. Build a skilled workforce capable of advancing national and international radiation safety standards.

Objectives :

  • Establish a world-class research and innovation center focused on next-generation radiation detection and shielding technologies.
  • Integrate cutting-edge materials science, advanced engineering, and interdisciplinary collaboration to develop high-performance, reliable, and adaptive radiation protection systems.
  • Position the organization as a global leader in radiation safety by 2035 through continuous innovation and excellence in detector miniaturization, smart shielding, and adaptive protection.
  • Deliver transformative solutions for critical sectors including nuclear energy, homeland security, healthcare, aerospace, defense, and environmental monitoring.
  • Advance national and international radiation safety standards through research-driven technologies and workforce development programs.
  • Foster strategic partnerships with academia, industry, and government agencies to accelerate the translation of research into real-world applications.