Post on 24-May-2020
Washington Academy of Sciences ForumWashington Academy of Sciences Forum
Nanotechnology: An Interdisciplinary EndeavorNanotechnology: An Interdisciplinary Endeavor
Chemical Nanotechnology:Chemical Nanotechnology:Molecular Electronics Molecular Electronics
James G. KushmerickNational Institute of Standards and Technology
Gaithersburg, MDjames.kushmerick@nist.gov
•What is Molecular Electronics?•How do we measure a molecular electronic device?•Molecular Components
•Wires•Diodes•Switches
•Beyond Molecular Electronics
MooreMoore’’s Law and Feature Sizes Law and Feature Size
Nature 399 (1999) 729.Physics Today
Basic 2 Terminal Molecular Electronic DeviceBasic 2 Terminal Molecular Electronic Device
Definition: Molecular electronics endeavors to use the non-linear current-voltage characteristics of individual molecules or molecular assemblies as active components in electronic circuits.
Why is NIST interested in Molecular Why is NIST interested in Molecular Electronics?Electronics?
To develop the standards and measurement infrastructurenecessary to predict, measure, and control the flow of charge through molecules and ensembles of molecules.
“To knowledge by measurement.”— Kammerlingh Onnes, Leiden Univ.
A Role for NISTA Role for NIST
“Moletronics Metrology”
How do we measure a molecular electronic How do we measure a molecular electronic device?device?
How do we How do we buildbuild a molecular electronic a molecular electronic device?device?
Molecular SelfMolecular Self--AssemblyAssembly
“Connect” molecular electronic structure to the metallic band structure
Reed and Tour Scientific American June 2000
Electronic Characterization MethodsElectronic Characterization Methods
Scanning Probes
Nanopore Hg Drop
S S
Au{111}
S
STM Tip trajectorySTM Tip
S SS SSS S S S S
Break Junction Nanowire Devices
6464--Bit Molecular MemoryBit Molecular Memory
HP Labs Applied Physics Letters 82 (2003) 1610-1612.
CrossedCrossed--Wire Tunnel JunctionWire Tunnel Junction• Simple experimental apparatus • Wide variety of wires available (Au, Pd, Pt, …)• Junction contains ~103 molecules• No metallization after SAM deposition
Initial work by Gregory, S. Phys. Rev. Lett. 1990, 64, 689-692.
Molecular ComponentsMolecular Components
Wires
Structure Dependence of Charge TransportStructure Dependence of Charge TransportSAc
AcS
OBu
BuO
SAcAcS
AcSSAc
JACS 124 (2002) 10654-10655.
Structure Dependence of Charge TransportStructure Dependence of Charge TransportSAc
AcS
OBu
BuO
SAcAcS
AcSSAc
JACS 124 (2002) 10654-10655.
10-9
10-8
10-7
10-6
Cur
rent
(A)
1.00.80.60.40.20.0
Voltage (V)
Contact Induced RectificationContact Induced Rectification
Differences in metal-molecule coupling lead to diode-like behavior of molecular junction
S S
S
Physical Review Letters 89 (2002) 086802.
First Principles CalculationsFirst Principles Calculations
Taylor, Brandbyge and Stokbro Physical Review Letters 89 (2002) 138301.
Large potential drop at non-
bonding contact.
Nanotechnology 15 (2004) S489-S493.
Rectification decreases as coupling increases at right interface.
NS
SO
N+
O–
S
SS
Role of MetalRole of Metal--Molecule ContactsMolecule Contacts
Molecular ComponentsMolecular Components
Diodes
AviramAviram--RatnerRatner RectifierRectifier
Aviram, A.; Ratner, M. A. Chem. Phys. Lett. 1974, 29, 277-283.
Metzger, R. M. Acc. Chem. Res. 1999, 32, 950-957.
Ng, M.-K.; Lee, D.-C.; Yu, L. JACS 2002, 124, 11862-11863.
Chabinyc, M. L.; Chen, X.; Holmlin, R. E.; Jacobs, H.; Skulason, H.; Frisbie, C. D.; Mujica, V.; Ratner,
M. A.; Rampi, M. A.; Whitesides, G. M. JACS 2002, 124, 11730-11736.
All previous demonstrations of molecular rectification have asymmetric metal-molecule contacts
Molecular RectifiersMolecular Rectifiers
SS
OEt
EtO NC
Breaking Internal SymmetryBreaking Internal Symmetry
Need to control self-assembly to create a monolayer with a single molecular orientation!
AuAu
Controlling SelfControlling Self--AssemblyAssembly
Need to control self-assembly to create a monolayer with a single molecular orientation!
Au
Au
+
Au
H2SO4
F-
Developed chemistry for preparing monolayers with controlled polar order.
Sequentially Sequentially DeprotectedDeprotectedSelfSelf--AssemblyAssembly
Langmuir 20 (2004) 1838-1842.
Monolayer junction with controlled polar order results in I-V characteristics asymmetric with respect to bias voltage polarity.
Molecular structure dictates difference in charge transport depending on direction of current flow.
Minor IMinor I--V Asymmetry V Asymmetry
Langmuir 20 (2004) 1838-1842.
Measured I-V asymmetry not a result of TMSE protection/deprotectionchemistries
No Asymmetry in OPENo Asymmetry in OPE
P. Jiang, G. M. Morales, W. You and L. Yu, Angewandte Chemie 43 (2004) 4471-4475.
Molecular ComponentsMolecular Components
Switches
Molecular MemoryMolecular Memory
Reed et al. Applied Physics Letters 78 (2001) 3735-3737.
Is the Molecule Switching?Is the Molecule Switching?
HP Labs Nano Letters 4 (2004) 133-136.
A Molecular SwitchA Molecular Switch
N
SAc
N
SAc
O2NNO2
4
12
3
On-Off ratio of ~40 to 1 at 1V.
ReversibilityReversibility
1
23
4
4
12
3
Can start with junction in either the high or low state. Junction “resets” from high to low state near 0 V.
Molecular Memory Studied by Three TechniquesMolecular Memory Studied by Three Techniques
N
SAc
N
SAc
O2NNO2
Nature Materials 4 (2005) 167-172.
Switch Voltage VariabilitySwitch Voltage Variability
Possible Switching MechanismPossible Switching Mechanism
Bias offset suggests charging in molecule or film
PolaronPolaron ModelModel
Galperin, Ratner, Nitzan Nano Letters 5 (2005) 125-130.
Beyond Molecular ElectronicsBeyond Molecular ElectronicsWill this really replace your computer?Will this really replace your computer?
Implications Beyond Molecular ElectronicsImplications Beyond Molecular Electronics
• Improved thin film FETs and flexible displays
• New chem-bio sensors
• Hybrid silicon molecule electronics
Lieber (Harvard) Hersam (Northwestern)
AcknowledgementsAcknowledgements
G. Bazan (UCSB)D. Seferos (UCSB)C. Daniel Frisbie (Minnesota)Bong Soo Kim (Minnesota)D. Allara (PENN State)T. Mallouk (PENN State)T. Mayer (PENN State)J. Tour (Rice)
NIST Colleagues:J. BeebeR. van ZeeC. Richter
B. Ratna (NRL)A. Blum (NRL)S. Pollack (NRL)R. Shashidhar (Geo-Centers)J. Lazorcik (Geo-Centers)D. Long (Geo-Centers)M. Ratner (Northwestern)
External Collaborators: