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Nanoscale imaging and control of resistance switching in VO 2 at room temperature Jeehoon Kim, Changhyun Ko, Alex Frenzel, Shriram Ramanathan, and Jennifer.

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Presentation on theme: "Nanoscale imaging and control of resistance switching in VO 2 at room temperature Jeehoon Kim, Changhyun Ko, Alex Frenzel, Shriram Ramanathan, and Jennifer."— Presentation transcript:

1 Nanoscale imaging and control of resistance switching in VO 2 at room temperature Jeehoon Kim, Changhyun Ko, Alex Frenzel, Shriram Ramanathan, and Jennifer E. Hoffman APPLIED PHYSICS LETTERS 96, 213106 (2010) Tanaka lab. Kotaro Sakai

2 Contents ・ Introduction Strongly correlated electron system The characteristics of VO 2 Domain structure in VO 2 ・ Experiment Methods Result & Discussion ・ Summary ・ Future work

3 Band Width : wideBand Width : narrow Partial occupation ⇒ Metal Partial occupation ⇒ but Insulator Coulomb's repulsion U Strongly correlated electron system Stimulation Temperature Electric field Magnetic field Light

4 High-T: metal Low-T: insulator Science 318, 1750 (2007) The characteristics of VO 2

5 Domain configuration 10nm [001] [110] VO 2 TiO 2 VO 2 crack

6 ・ Transmittance ・ Work function Appl. Phys. Lett. 101, 191605 (2012) InsulatorMetal + InsulatorMetal ・ Seebeck coefficient Nano Lett. 9, 4001(2009) ・ Carrier density Phys. Rev. B 79, 153107 (2009) Appl. Phys. Lett. 102, 153106(2013) The characteristics of VO 2

7 Nature Nanotech. 7, 723 (2012) Domain boundary

8 n=4 ・ Step resistivity changes in 200nm VO 2 wire on Al 2 O 3 (0001) 50nm Domain size = 50nm ~ Appl. Phys. Lett. 104, 023104 (2014) Nano domain in VO 2

9 ・ VO 2 Thickness : 200 nm Rms roughtness : ~ 6 nm ・ Si substrate (As-doped) Resistivity : 0.002-0.005 Ωcm Sample details

10 Measurement system grain on Al 2 O 3 or Si ( Volmer-Weber growth mode) VO 2 n-type Si I

11 Transition by applied voltage VO 2 n-type Si I VO 2 n-type Si I ・ They succeeded to demonstrate a threshold switching by Joule heating. P=100μW

12 500nm Domain mapping I ・ The insulating state displays variations in conductivity up to 100%. ・ Conductivity appears lower in the grain boundary. Current (μA)

13 500nm Domain mapping ・ The metallic state nucleates at the grain with largest insulating-state conductivity

14 Domain mapping Current (μA) ・ Lower conductivity grain boundaries remain apparent as well as the insulating phase.

15 Summary ・ They demonstrated a threshold switching by using metal-insulator transition in a single domain of VO 2. ・ This transition results most directly from Joule heating. ・ Conductivity appears lower in the grain boundaries due to a different stoichiometric phase.

16 Future work 10nm [001] [110] VO 2 TiO 2 VO 2 crack ・・・・・・・・・・・ ・・・・・・・・・・・ ・ ・・・・・・・・ ・・・・・・・・ ・ on TiO 2 ( Frank van der Merwe growth mode) grain on Al 2 O 3 or Si ( Volmer-Weber growth mode) No crack & grain boundary

17 Future work Nb-dope TiO 2 A cantilever coated with Pt or Rh I Sample stage (Cu) Science 318, 1750 (2007)

18 Future work Insulator Metal Pt coated tip TiO 2 substrate Pt I L 500nm VO 2 nano-wire Pt 300μm 20μm AFM image Pt VO 2 nanowire 50nm

19

20 crystalVO 2 TiO 2 Al 2 O 3 Lattice constant (nm) 0.4550.4590.476 Lattice mismatch(%) -0.8634.41 Lattice mismatch

21 Temperature[K] Resistance[Ω] VO 2 -VO 2 VO 2 -TiO 2 (Nb dope) z ・ ・ ・・ VO 2 Nb-dope TiO 2 substrate R-T curve on Nb doped TiO2

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