Hybrid Perovskite Solar Cells - Opportunities and Challenges

Hybrid Perovskite Solar Cells - Opportunities and Challenges

Materials Research Society via YouTube Direct link

What about layered 2D perovskites? (in collaboration with Kanatzidis group Northwestern)

36 of 40

36 of 40

What about layered 2D perovskites? (in collaboration with Kanatzidis group Northwestern)

Class Central Classrooms beta

YouTube videos curated by Class Central.

Classroom Contents

Hybrid Perovskite Solar Cells - Opportunities and Challenges

Automatically move to the next video in the Classroom when playback concludes

  1. 1 Hybrid perovskite solar cells: Opportunities and challenges
  2. 2 Acknowledgements
  3. 3 Topics
  4. 4 Photovoltaics: Working principle P-N junction with light shining on it!
  5. 5 Motivation
  6. 6 Transport in nanostructured thin-films
  7. 7 Our strategy
  8. 8 Hybrid perovskites: A solution processed high quality semiconductor
  9. 9 Challenges in the field...
  10. 10 c-Si solar cell efficiency over 60 years
  11. 11 Other advantages of growing crystals
  12. 12 Higher boiling point solvents
  13. 13 Film Characterization
  14. 14 Photovoltaic device performance
  15. 15 Efficiency Vs Grain-size
  16. 16 Reproducible and hysteresis free
  17. 17 Nio, as hole transport layer
  18. 18 Evidence for suppressed recombination
  19. 19 Optical properties
  20. 20 Pure bimolecular recombination
  21. 21 Stability is an critical issue....
  22. 22 Our experiment
  23. 23 Device performance with constant illumination
  24. 24 Charge injection does not degradation- Light-activation required
  25. 25 No evidence for structural degradation
  26. 26 Evidence for trapped charge
  27. 27 Photocurrent transient measurements
  28. 28 Recovery of PL signal at RT
  29. 29 Light-induced formation of trap states
  30. 30 Evidence for formation of sub-bandgap states
  31. 31 Formation of light-activated trap states
  32. 32 Fast photocurrent recovery in dark
  33. 33 Photocurrent recovery and temperature dependence of efficiency
  34. 34 What are layered perovskites?
  35. 35 Challenges in layered perovskite
  36. 36 What about layered 2D perovskites? (in collaboration with Kanatzidis group Northwestern)
  37. 37 Breakthrough efficiency in planar geometry
  38. 38 Hysteresis tests
  39. 39 Stability of 3D vs. 2D perovskites
  40. 40 Summary

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Someone learning on their laptop while sitting on the floor.