Objectives
The main objective is to make students familiar with various imaging methods and gain advanced knowledge of these instruments. They will be able to explain the operating principles behind the measurement methods discussed, demonstrating a thorough understanding of their functionality. Students will also describe the interaction mechanisms between samples and measurement methods, which are crucial for imaging techniques.
Participants will learn to select appropriate imaging methods for different materials and structures, illustrating their capability to align techniques with specific material characteristics. The course will enhance students' skills in teamwork, including reporting, organization, and collaboration, enabling effective work within interdisciplinary teams.
Further, students will develop their creative problem-solving abilities by engaging in group measurements, where they will apply critical thinking to overcome challenges. The importance of interdisciplinary approaches will be emphasized, acknowledging the synergy between various scientific fields in the realm of materials imaging.
Additionally, the course will cover the economic and commercial impacts of micro and nano-scale imaging methods in materials research, highlighting their industrial applications and contributions to technological progress. A focus on sustainability will guide students to consider the environmental impacts of their research, encouraging the adoption of sustainable practices in material development and characterization.
Intended Learning Outcomes:
By the end of the course, students will be able to:
- Identify and name various imaging methods.
- Explain the interaction mechanisms between samples and measurement methods that form the basis of imaging techniques.
- Suggest and justify the selection of specific imaging methods for different materials and structures.
- Showcase effective teamwork skills through reporting, organization, and collaboration, enhancing interdisciplinary cooperation.
- Utilize creativity during group measurements to draw insightful conclusions and address challenges.
- Know and integrate interdisciplinary approaches in materials imaging, recognizing the synergy between different scientific fields and their processes.
The main objective is to make students familiar with various imaging methods and gain advanced knowledge of these instruments. They will be able to explain the operating principles behind the measurement methods discussed, demonstrating a thorough understanding of their functionality. Students will also describe the interaction mechanisms between samples and measurement methods, which are crucial for imaging techniques.
Participants will learn to select appropriate imaging methods for different materials and structures, illustrating their capability to align techniques with specific material characteristics. The course will enhance students' skills in teamwork, including reporting, organization, and collaboration, enabling effective work within interdisciplinary teams.
Further, students will develop their creative problem-solving abilities by engaging in group measurements, where they will apply critical thinking to overcome challenges. The importance of interdisciplinary approaches will be emphasized, acknowledging the synergy between various scientific fields in the realm of materials imaging.
Additionally, the course will cover the economic and commercial impacts of micro and nano-scale imaging methods in materials research, highlighting their industrial applications and contributions to technological progress. A focus on sustainability will guide students to consider the environmental impacts of their research, encouraging the adoption of sustainable practices in material development and characterization.
Intended Learning Outcomes:
By the end of the course, students will be able to:
- Identify and name various imaging methods.
- Explain the interaction mechanisms between samples and measurement methods that form the basis of imaging techniques.
- Suggest and justify the selection of specific imaging methods for different materials and structures.
- Showcase effective teamwork skills through reporting, organization, and collaboration, enhancing interdisciplinary cooperation.
- Utilize creativity during group measurements to draw insightful conclusions and address challenges.
- Know and integrate interdisciplinary approaches in materials imaging, recognizing the synergy between different scientific fields and their processes.
- Teacher
Vipul Sharma