FDNS21: Van der Waals Epitaxy of Atomically Thin Metal Oxide

By Lili Cai

Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, Urbana, IL

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Bio

Lili Cai Lili Cai is an Assistant Professor in the Department of Mechanical Science and Engineering at the University of Illinois at Urbana-Champaign. She received a B.S. in Materials Science and Engineering at USTC in 2009, a M.S. in Mechanical Engineering from Stanford University in 2012, and a Ph.D. in Mechanical Engineering from Stanford University in 2016. Her interdisciplinary research focuses on bridging thermal science, nanotechnology and material manufacturing to provide innovative solutions to crucial challenges in energy and wearable technologies.

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Network for Computational Nanotechnology Nanomanufacturing Node

Cite this work

Researchers should cite this work as follows:

  • Lili Cai (2021), "FDNS21: Van der Waals Epitaxy of Atomically Thin Metal Oxide," https://nanohub.org/resources/35047.

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Tags

  1. 2D materials and devices
  2. graphene
  3. nanoelectronics
  4. nanomanufacturing
  5. nanoMFG Node
  6. oxides
  7. synthesis
  8. van der Waals
Van der Waals Epitaxy of Atomically Thin Metal Oxide
  • Van der Waals Epitaxy of Atomically Thin Metal Oxide 1. Van der Waals Epitaxy of Atomi… 0
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  • UIUC Campus 2. UIUC Campus 54.254254254254256
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  • Two-dimensional (2D) Materials 3. Two-dimensional (2D) Materials 87.45412078745413
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  • 2D Metal Oxide – Less Explored 4. 2D Metal Oxide – Less Explor… 165.13179846513179
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  • Previous Attempts for Atomically Thin MoO3 5. Previous Attempts for Atomical… 248.54854854854855
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  • Flame Synthesis 6. Flame Synthesis 304.8048048048048
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  • Previous Flame Synthesis Efforts 7. Previous Flame Synthesis Effor… 377.87787787787789
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  • Flame Synthesis Setup 8. Flame Synthesis Setup 423.39005672339005
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  • Flame Synthesis– Rapid Growth Rate 9. Flame Synthesis– Rapid Growt… 488.42175508842178
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  • Flame Synthesis – Uniform over Large Area 10. Flame Synthesis – Uniform ov… 545.87921254587923
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  • Flame Synthesis – Controllable Morphology 11. Flame Synthesis – Controllab… 585.38538538538546
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  • Flame Synthesis – Controllable Gas Concentration 12. Flame Synthesis – Controllab… 620.72072072072069
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  • Flame Synthesis of Unique Phases and Compositions 13. Flame Synthesis of Unique Phas… 743.87721054387725
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  • Flame Synthesis of Few-layer MoO3 14. Flame Synthesis of Few-layer M… 768.13480146813481
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  • Growth of Few-layer MoO3 15. Growth of Few-layer MoO3 828.72872872872881
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  • Thickness Control by Flame Equivalence Ratio 16. Thickness Control by Flame Equ… 856.956956956957
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  • Growth of Monolayer MoO3 17. Growth of Monolayer MoO3 906.006006006006
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  • Material Characterization 18. Material Characterization 923.656990323657
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  • Growth of MoO3 on Diverse 2D Materials 19. Growth of MoO3 on Diverse 2D M… 971.7384050717385
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  • Hole Doping of WSe2 by Flame-Deposited MoO3 20. Hole Doping of WSe2 by Flame-D… 1029.9632966299632
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  • Electrical Performance of MoO3/WSe2 21. Electrical Performance of MoO3… 1082.5825825825825
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  • Hole Doping of Graphene by Flame-Deposited MoO3 22. Hole Doping of Graphene by Fla… 1143.677010343677
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  • Device Measurement of MoO3/Graphene 23. Device Measurement of MoO3/Gra… 1206.3063063063064
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  • Contact and Sheet Resistances of MoO3/Graphene 24. Contact and Sheet Resistances … 1272.3723723723724
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  • Estimation of Carrier Density of MoO3/Graphene 25. Estimation of Carrier Density … 1354.0206873540208
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  • Underlying Causes for Stronger Doping by Flame MoO3 26. Underlying Causes for Stronger… 1390.256923590257
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  • Summary 27. Summary 1486.61995328662
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  • Thickness Control by Flame Equivalence Ratio 28. Thickness Control by Flame Equ… 1979.6796796796798
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