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Introduction to Molecular Devices

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Ultra-thin gate oxides. Short channel effect. Doping fluctuations ... Homo. Contact 1. Device (Molecule) Contact 2. e. V=0. Lumo. qV. Ef1=Ef2=Ef. Ef1=Ef-eta*V ... – PowerPoint PPT presentation

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Title: Introduction to Molecular Devices


1
Introduction to Molecular Devices
  • Geng-Chiau Liang

2
Outline
  • Fundamental Concept
  • Review of basic formulas
  • 2-state toy model
  • Molecular Devices
  • Switches
  • Resonant Tunneling Structures
  • SAMFETs
  • Summation

3
Moores Law

4
Limitations
  • Ultra-thin gate oxides
  • Short channel effect
  • Doping fluctuations
  • Difficult and expensive lithography

5
Approaches for designing new generation devices
  • Nanotube devices
  • Molecular electronics
  • Benefits
  • Smaller ( 1-2 A)
  • Self-assembled monolayer( Cheaper for
    fabrication)

6
Fundamental Concept
e
Homo
7
Review of Basic Formulas
Ref Datta, S. Electronic Transport in Mesoscopic
System Cambridge University Press, 1997
8
Two-state Toy Model
  • assumptions
  • Two energy states of devices E0, E1
  • Broadening gamma1, gamma2
  • Eta theory eta0 or eta0.5
  • Charging energy U0 or U2
  • Restricted method
  • Room temperature T300
  • Orthogonal basis (only diagonal terms exist)

9
Results (I)
Eta0.5
10
Results (II)
  • Eta1

11
Results (III)
Eta.5
12
Switches (Molecular Junction)
Ref Reed etc al., Science 278, pp. 252, 1997
13
Switches (II)
PN Junction
Model 1
Model 2
14
Switches (III)
  • Reference
  • PN junction Ellenbogen, et al., Proc. IEEE, Vol.
    88, No. 3, pp.386, 2000
  • Model 1 Metzger, et al., J. Amer. Chem. Soc.
    Vol.119, pp.10455-10466, 1997
  • Model 2 Zhao, et al., Appl. Phys. Lett. Vol. 71,
    pp. 611-613, 1997

15
Resonant Tunneling Structure
1.31 on-off peak-to valley ration
Ref Reed, et al, Proc. IEEE Vol. 87,
pp.652-658 Apr. 1999
Ellenbogen, et al., Proc. IEEE, Vol. 88, No. 3,
pp.386, 2000
16
Energy states
17
Resonant Tunneling Structure (II)
Explanation 1 Seminario, et al, J. Am Chem.
Soc., Vol. 122, pp. 3015- 3020 2000
10001 on-off peak-to-valley ration
Explanation 2 Lang, et al, Phys. Rev. Lett. Vol.
86, pp.288 2001
Ref Chen, et al., Science, 286, pp. 1550 1999
18
SAMFET
Ref Schon, et al., nature Vol. 413, pp. 713 2001
19
Memory
Ref Reed, et al., Appl. Phys. Lett. 78, pp. 3735
2001
20
Summary
  • Using two-state toy model to explain how the
    device conduct
  • Introduction to the simple ideas of molecular
    device designing
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