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Transmission Electron Microscopy

Metallurgical and Materials Engineering

Institute of Natural and Applied Sciences
Third Cycle (Doctorate Degree)
Course Unit Title Course Unit Code Type of Course Unit Level of Course Unit Year of Study Semester ECTS Credits
Transmission Electron Microscopy MMT615 Elective Doctorate degree 1 Fall 8

Name of Lecturer(s)

Associate Prof. Dr. Mustafa Burak TELLİ

Learning Outcomes of the Course Unit

1) Explain working principles and types of transmission electron microscope (TEM)
2) Explain working principles of TEM’s parts, source of electron, condenser lenses, aberrations and corrections in lenses, camera systems, vacuum systems
3) Explain contrast and imaging mechanism in TEM
4) Explain adjusment of microscope and determination of using conditions, accelerator voltage, adjusment of aperture, photographing
5) Explain electron diffraction in TEM, bright and dark field imaging, sample rotation, energy dispersive and electron energy loss analysis
6) Explain high resolution and scanning transmission electron microscope
7) Explain sample preparation techniques in TEM
8) Explain effect of radiation on the sample from TEM

Program Competencies-Learning Outcomes Relation

  Program Competencies
1 2 3
Learning Outcomes
1 High High Middle
2 High High Middle
3 High High Middle
4 No relation No relation No relation
5 High High Middle
6 High High Middle
7 High High Middle
8 High High Middle

Mode of Delivery

Face to Face

Prerequisites and Co-Requisites

None

Recommended Optional Programme Components

Not Required

Course Contents

Candidates are provided with in-depth knowledge on working principles and types of transmission electron microscope (TEM) ,working principles of TEM’s parts, source of electron, condenser lenses, aberrations and corrections in lenses, camera systems, vacuum systems - contrast and imaging mechanism in TEM, adjusment of microscope and determination of using conditions, accelerator voltage, adjusment of aperture, photographing ,electron diffraction in TEM, bright and dark field imaging, sample rotation, energy dispersive and electron energy loss analysis, high resolution and scanning transmission electron microscope, sample preparation techniques in TEM, effect of radiation on the sample from TEM.

Weekly Schedule

1) Introduction Transmission Electron Microscopy
2) Elastic Electron Scattering in Transmission Electron Microscopy
3) Elastic Electron Scattering in Transmission Electron Microscopy
4) Inelastic Electron Scattering in Transmission Electron Microscopy
5) Inelastic Electron Scattering in Transmission Electron Microscopy
6) Electron Sources in Transmission Electron Microscopy
7) Lenses, Apaertures and their adjustments in Transmission Electron Microscopy
8) Midterm examination/Assessment
9) Screens and Cameras Used Transmiision Electron Microscopy
10) Sample Height, Condenser and Objectşve Lens Adjustments in TRansmission Electron Microscopy
11) Bright Field, Dark Field and Selected area Electron Diffraction in Transmission Electron Microscopy
12) Sample Preperation Techniques in Transmission Electron Mikroscopy
13) Electron Difraction in Transmission Electron Microscopy
14) Single and polycrystalline electron difraction patterns in Transmission Electron Microscopy
15) Scanning Transmission Electron Microscopy
16) Final examination

Recommended or Required Reading

Planned Learning Activities and Teaching Methods

1) Lecture
2) Discussion
3) Demonstration
4) Group Study
5) Problem Solving


Assessment Methods and Criteria

Contribution of Midterm Examination to Course Grade

40%

Contribution of Final Examination to Course Grade

60%

Total

100%

Language of Instruction

Turkish

Work Placement(s)

Not Required