X-ray Sensors Enhanced with Nanoparticles – Advanced Imaging and Detection
Virtual (Google Meet)
Mentor Based
Moderate
4 Days
8 -February -2025
2:30- 4:00 PM IST
About
Explore the pivotal role of nanotechnology in revolutionizing X-ray sensor applications in this engaging workshop. Participants will gain hands-on expertise in nanoparticle grain size analysis through focused training sessions. Additionally, the program explores the impact of grain size on the development and performance of cutting-edge X-ray sensors, bridging theory with practical innovation.
Aim
This workshop aims to explore the integration of nanoparticles into X-ray sensors, enhancing their imaging and detection capabilities for advanced applications in medical diagnostics, material analysis, and security. Participants will gain knowledge of the latest innovations in nanotechnology and its transformative role in sensor technology.
1. Significance of X-Ray Sensors in Modern Applications
- (Sets the stage by introducing the relevance of X-ray sensors.
2. The Essential Role of Nanomaterials in Sensor Technology
- (Connects nanomaterials to the advancement of sensors.
3. Training Program: Techniques in Nanoparticle Grain Size Analysis
- (Focuses on skill-building related to nanoparticle grain size.)
4. Grain Size Effects: Advancing X-Ray Sensor Development
- (Concludes with the impact of grain size on X-ray sensor innovations.)
Workshop Objectives
- Understand the principles of X-ray imaging and detection.
- Explore the role of nanoparticles in enhancing X-ray sensor performance.
- Learn about advancements in nanoparticle synthesis for imaging applications.
- Discuss real-world applications across healthcare, security, and industrial domains.
- Gain hands-on knowledge of integrating nanoparticles into sensor design.
Workshop Structure
Day 1: Importance of X-ray sensor
- About – X-rays, Historical perspective,types of detection.
- Application and importance in medical field.
Day 2: Importance of Nanomaterial
- Intro – Material selection, attenuation effect.
- Historical and current nanomaterial used in X-ray sensors.
Day 3: Training on Characterization technique.
-TEM images such as
- High (Fringe pattern) and
- Low (shape, size identification) magnification,
- SAED pattern (purity)
Using J Software
Day 4: Nanomaterial in X-ray sensor
- Grain size effect on X-ray sensor
- Conclusion and future scope
Participant’s Eligibility
- Undergraduate or postgraduate degree in Physics, Materials Science, Nanotechnology, or related fields.
- Professionals in medical imaging, materials analysis, or security industries.
- Individuals with a strong interest in advanced imaging and detection technologies.
Important Dates
Registration Ends
2025-02-08
Indian Standard Timing 1:30 PM
Workshop Dates
2025-02-08 to 2025-02-11
Indian Standard Timing 2:30- 4:00 PM
Workshop Outcomes
- Gain expertise in nanoparticle-enhanced imaging technologies.
- Acquire knowledge of cutting-edge X-ray sensor advancements.
- Learn practical approaches to integrating nanoparticles into sensor systems.
- Understand industry-specific applications and challenges.
- Build a foundation for careers in advanced imaging and nanotechnology.
Mentor Profile
Designation: Research Scientist
Affiliation:
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, characterization, and fabrication of low-dose X ray detectors.Her research focuses on the development of inorganic nanostructured materials with varied morphologies, including perovskite-based semiconductors, polymer-based nanocomposites,biomaterials, and metal oxide nanomaterials.Dr. Karthieka got hands on experience in the synthesis of nanomaterials through various methods and trained many post graduate students during her doctorate degree. Additionally, her industrial expertise in thin-film fabrication for organic photovoltaic (OPV) and organic photodetector (OPD) devices development, experience on various large area coating techniques, translating theoretical knowledge into industrial application.
Fee Structure
Student
INR. 1399
USD. 50
Ph.D. Scholar / Researcher
INR. 1699
USD. 55
Academician / Faculty
INR. 2199
USD. 60
Industry Professional
INR. 2699
USD. 85
List of Currencies
Key Takeaways
- Access to Live Lectures
- Access to Recorded Sessions
- e-Certificate
- Query Solving Post Workshop
Future Career Prospects
- Research scientist in medical imaging technologies.
- Engineer specializing in nanoparticle-based sensor design.
- Roles in quality control for manufacturing and industrial applications.
- Careers in advanced diagnostic imaging systems development.
- Opportunities in forensic science and security technologies.
- Consultant for integrating nanotechnology into sensor systems
Job Opportunities
- Medical Industry: R&D in diagnostic imaging.
- Security and Defense: Advanced detection systems.
- Material Science: Characterization and analysis.
- Aerospace: Non-destructive testing and quality assurance.
- Academic Research: Nanotechnology-enhanced sensor applications.
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great knowledge about topic.