Radionuclide Production
Source: https://learningforlife.tudelft.nl/radionuclide-production/ Parent: https://learningforlife.tudelft.nl/our-courses/health-and-medical-technology/
Share webpage
- Discuss the basics of radioactivity and decay
- Determine the best way to produce high-quality radionuclides
- Choose the most suitable production facility by weighing their respective advantages and disadvantages
- Calculate production levels, taking radioactive equilibrium situations into account
- Evaluate which chemical separation methods are applicable in different situations
- Explain how quality control is applied in practice
Start date Jan 28, 2026
Free
- Type Course
- Location Online
- Pacing Instructor-paced
- Length
For instructor paced courses this is the length of the course.
For self-paced courses this is the length of the course if you spend the amount of time per week as specified. You're free to go faster or slower as you see fit.
4 Weeks - Effort 4 - 6 Hours per week
Loading...
Subscribe to back in stock notification
Subscribe
- Antonia Denkova
-
Overview
Curious where the radionuclides used to diagnose and treat cancer in hospitals come from? In this course you will obtain a deeper understanding of radionuclide production, which production facilities can be used, and how to obtain high quality radionuclides.
Nuclear chemistry is an exciting and challenging field that is continuously evolving. Radionuclides (radioactive isotopes) play a vital role in this field, with applications ranging from medical diagnostics and cancer therapy to monitoring of environmental pollution and industrial processes such as inspection, monitoring and gauging. But how are these radionuclides actually produced?
This course is intended for early-career professionals in the nuclear field, whether in industry, research, academia, government or healthcare. You will gain a thorough knowledge of the production of medical and industrial radioisotopes. Key topics include:
- The basics of radiation and radioactivity
- Production facilities and generators
- Factors influencing radionuclide production
- Radionuclide separation and quality control
This course has been designed by TU Delft’s experts from the Department of Radiation, Science and Technology at the TU Delft | Reactor Institute. It provides a clear and comprehensive overview of how radionuclides are produced, making it an ideal choice for anyone seeking to deepen their knowledge in this field. Our specialists in the fields of radiochemistry and nuclear engineering are eager to share their knowledge with you!
This course will be of great value for graduating students interested in nuclear chemistry, professionals working with radionuclides who want to understand production bottlenecks, hospital staff operating medical scanners or staff curious about which production facilities can be used, and how to obtain the high-quality radionuclides for radiopharmaceutical development, and researchers whose work involves radionuclide applications, and more. - Details
##### Course Syllabus
The course is organized in four modules, which can be followed in two different tracks. The beginner track introduces core concepts, while the advanced track dives into more complex material. Both tracks are available to both audit and verified learners. A brief summary of each unit is presented below.
Module 1. Introduction into radioactivity
In this module the basics of radioactivity, nuclear reactions and decay will be discussed. What is radioactivity, half-life and a radioisotope, and what types of decay exist? You will learn how to use the nuclide chart and how radiation interacts with matter. You will also learn to interpret a gamma spectrum and what detectors can be used for which type of decay. At the end there will be a podcast where an expert on gamma spectrometry discusses interesting applications of the technique.
Module 2. Generators
In the generators module you’ll learn how to calculate radioactive equilibria, understand different types of equilibrium, mother/daughter relationships and successive decay. Some examples of currently used radionuclide generators will be presented.
Module 3. Production of radioisotopes
After successfully completing this module, you’ll be able to determine which production facilities are most appropriate for producing a certain radioisotope, based on their respective advantages and disadvantages. You'll also learn to calculate production levels and how quality control is applied in practice.
Module 4. Separation of radioisotopes
In this module, you will learn which chemical separation methods are used for the purification of produced radioisotopes, along with some practical applications of these methods. You’ll also learn how quality control is applied in practice. - Qualifications
##### Chartered Engineering Competences
All our online courses and programs have been matched to the competences determined by KIVI’s Competence Structure, a common frame of reference for everyone, across all disciplines, levels and roles.
These competences apply to this course:
- A1: Extend your theoretical knowledge of new and advancing technologies.
- Admission
This is a Massive Open Online Course (MOOC) that runs on edX.\
##### Prerequisites
- None
What our learners say about us
-
This radionuclide production course is such a unique niche, and not every nuclear-related university program has the course.
Yanuar Ady Setiawan - Indonesia
Related Products
Press to go to carousel navigation
4 - 6 Hours per week
Free
4 - 6 Hours per week
Free
4 - 6 Hours per week
Free