Workshop Registration End Date :07/28/2025

Mentor Based

Program Syllabus

Module 1

About

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.

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Module 2

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.

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Module 3

Workshop 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.

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Module 4

Workshop Structure

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.

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Module 5

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.

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Module 6

Important Dates

Module 7

Registration Ends

07/28/2025
Indian Standard Timing 2:00 PM

Module 8

Workshop Dates

07/28/2025 to 07/29/2025
Indian Standard Timing 3:00- 4:30 PM

Module 9

Workshop 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.

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Module 10

Mentor Profile

Dr. R.R. Karthieka

Research Scientist

Silveray Ltd., United Kingdom

Dr. R.R. Karthieka currently serves as a Research Scientist at Silveray Ltd., United Kingdom. She earned her Ph.D. in Physics, specializing in Nanoscience and Nanotechnology, from the University of Madras in 2023. With eight years of research experience, her expertise is centered on the preparation, . . .

Module 11

Fee Structure

Module 12

Student

INR. 1199
USD. 50

Module 13

Ph.D. Scholar / Researcher

INR. 1499
USD. 55

Module 14

Academician / Faculty

INR. 1999
USD. 60

Module 15

Industry Professional

INR. 2699
USD. 76

We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!
List of Currencies

Module 16

FOR QUERIES, FEEDBACK OR ASSISTANCE

Module 17

Key Takeaways

Access to Live Lectures
Access to Recorded Sessions
e-Certificate
Query Solving Post Workshop

Module 18

Future Career Prospects

Medical Imaging Specialist — contributing to the development and optimization of advanced X-ray sensor systems in hospitals and research labs.
Nanotechnology Researcher — focusing on the synthesis, characterization, and application of nanomaterials for imaging and detection.
Materials Scientist or Engineer — working on integrating nanomaterials into electronic devices, sensors, and industrial imaging systems.
Radiological Equipment Developer — designing next-generation digital radiography systems for medical and industrial use.
Security Technology Specialist — applying nano-enhanced sensors for non-destructive testing and security scanning.
Quality Assurance Engineer — overseeing imaging systems and ensuring performance in medical, industrial, or defense sectors.
Academia and Research — pursuing advanced degrees or research positions focused on nanotechnology and imaging innovation.