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Transmission Electron Microscopy (TEM)

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Presentation on theme: "Transmission Electron Microscopy (TEM)"— Presentation transcript:

1 Transmission Electron Microscopy (TEM)
Basic Principles & Application in Thin Film Photovoltaic Materials Puvaneswaran Chelvanathan P65212 Principal Supervisor: Professor Dr. Nowshad Amin

2 Presentation Outline Introduction : Limitation of Visible Light Microscopy (VLM) Electron Wave-Like Nature TEM Components & Working Principle TEM Image Generation Interpretation of TEM Images Application in PV Research Field TEM Facility : Hi-Tech Ltd. Conclusion

3 Limitation of Light Microscopy

4 Resolution Illustration
Diffraction Barrier Phenomena

5 Visible Light & λ Abbe’s Diffraction Limit :
“ It is a poor comfort to hope that human ingenuity will find ways and means of overcoming this limit” 20 years later…….

6 Particle-Wave Duality
P.E K.E Taking Relativistic Effect into account:

7 Accelerating Voltage Vs. λ

8 Light Vs. Electrons

9 Wave-Matter Interaction

10 Introduction to Electron Microcopy

11 Optical vs. TEM vs. SEM vs. CRT

12 TEM Working Principle

13 Electron Gun

14 Electron Gun Types

15 Electron Gun Types

16 Electron Lens

17 Electron Lens

18 Optical Lens vs. Electron Lens

19 Principle of Electron Lens

20 Electron Beam Alignment

21 Electron Beam Focusing

22 Imaging: “Seeing The Electrons”

23 Imaging vs. Diffraction Pattern (DP)

24 Imaging : Bright Field vs. Dark Field

25 Imaging : Bright Field vs. Dark Field

26 Imaging : Bright Field

27 Imaging : Bright Field

28 Diffraction Pattern

29 Diffraction Pattern

30 Diffraction Pattern

31 Diffraction Pattern

32 Diffraction Pattern

33 Diffraction Pattern

34 Application in PV Device/Materials

35 Application in PV Device/Materials

36 Application in PV Device/Materials

37 Application in PV Device/Materials

38 Application in PV Device/Materials

39 Application in PV Device/Materials

40 Application in PV Device/Materials

41 TEM Facility : Hitech, Puchong

42 Some Results…. MoS2

43 Some Results…. MoS2

44 XRD vs. SAED XRD SAED

45 Conclusion TEM Fundamental Limitation of VLM
TEM Main components & operating principles Image generation: BF, DF and DP Interpretation of DP Application in PV research Jeol Electron Microscopy 1.25 MeV HVEM

46 * Remarks Topics Not covered: TEM Sample Preparation
Convergent Beam Electron Microscopy (CBED) Analytical Electron Microscopy (AEM) - Electron Energy Loss Spectroscopy (EELS) - Cathodoluminescence (CL)

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