Nanotechnology based Digital Radiography
A 3-Day Hands-On Workshop Exploring Cutting-Edge Imaging with Nanoparticles
Skills you will gain:
About Program:
Discover the future of X-ray imaging in this interactive 3-days workshop focused on Nanotechnology based Digital Radiography. Explore how nanoparticles transform traditional digital X-ray sensors, enhancing their imaging and detection capabilities. Gain hands-on experience with grain size analysis, learn to integrate nanoparticles into sensor systems, and uncover applications in medical diagnostics, material science, and security. This mentor-led program bridges the gap between theory and practice, empowering participants to innovate in advanced imaging technologies.
Aim: This workshop aims to provide participants with a practical understanding of nanotechnology based digital radiography, focusing on the integration of nanoparticles into digital X-ray sensors. Participants will explore how nanotechnology enhances imaging performance, gain hands-on skills in grain size analysis, and understand its impact on sensor design. The program bridges theory and practice to equip participants with the knowledge to apply these advancements in medical diagnostics, material analysis, and security technologies.
Program Objectives:
- Understand the principles of digital radiography and X-ray imaging.
- Learn how nanoparticles enhance sensor performance.
- Acquire skills in nanoparticle grain size analysis using TEM.
- Explore material selection and nanotechnology integration in sensors.
- Discuss real-world applications in medical, industrial, and security domains.
What you will learn?
Day 1 – Fundamentals of Nanotechnology Integration in Imaging Technology
Section 1: About X-rays and their importance
- Introduction to X-rays
- Historical research findings
- Applications of X-rays
- X-ray detectors and types
- Importance of low-dose X-rays
Section 2 : About Nanomaterials and their attenuation
- X-ray interaction with materials and its important parameters
- Different types of attenuation effects
- Selection of materials through software analysis
- Current existing direct conversion X-ray detectors
- Key mechanism of attenuation effect and its research findings
Day 2 – Advanced sensing performance using nanoparticle and hands-on training on Nanoparticle characterization
Section 1: Nanoparticle impacts
- Key mechanism on nano-grain size and its research findings.
- Conclusion and future scope in nano-based digital radiography
Section 2: Nanoparticle Analysis
- TEM instrumentation technique (theoretical),
- High magnification (fringe patterns),
- Low magnification (shape and size identification),
- SAED patterns (purity),
- Grain size measurement using J Software.
Mentor Profile
Fee Plan
Get an e-Certificate of Participation!
Intended For :
- Undergraduate and postgraduate students in Physics, Materials Science, Nanotechnology, or related fields.
- Professionals working in medical imaging, materials characterization, and security technologies.
- Researchers and engineers interested in advanced imaging systems and sensor design.
- Individuals eager to explore practical applications of nanotechnology in digital radiography.
Career Supporting Skills
Program Outcomes
- Ability to explain the role of nanoparticles in digital X-ray sensors.
- Practical knowledge of TEM imaging and grain size analysis.
- Competence in integrating nanoparticles into sensor design.
- Understanding of advanced sensor technologies for various industries.
- Foundation for careers or research in nano-enhanced imaging technologies.