Title: Carbon Nanotube FieldEffect Transistors
1 Carbon Nanotube Field-Effect Transistors and
their possible applications
Day 4B, May 30, 2008, Pisa
2Single-Walled Carbon Nanotube
- Hybridized carbon atom ? graphene monolayer ?
carbon nanotube
L.C. Castro
3VECTOR NOTATION FOR NANOTUBES
Zig-zag (6,0)
Chiral tube
Armchair (3,3)
Adapted from Richard Martel
4CHIRAL NANOTUBES
Armchair
Zig-Zag
Chiral
From Dresselhaus, Dresselhaus Eklund. 1996
Science of Fullerenes and Carbon Nanotubes. San
Diego, Academic Press. Adapted from Richard
Martel.
5Carbon Nanotube Properties
- Graphene sheet 2D E(k//,k?)
- Quantization of transverse wavevectors
- k? (along tube circumference)
- ? Nanotube 1D E(k//)
- Nanotube 1D density-of-states derived from
?E(k//)/?k-1 - Get E(k//) vs. k(k//,k?) from Tight-Binding
Approximation
6E-EF (eV) vs. k (1/nm)
Eg/2
(5,0) semiconducting
(5,5) metallic
7Properties relevant to devices discussed at Pisa
- low m - maybe good for tunneling transistor to
reduce sub-threshold slope - low m and long mfp - high mobility - good for
ION, gm, fT - - high
conductivity - good for interconnects - - also, may
help collection in polymer solar cells - me mh - ambipolar conduction, maybe good for
electroluminescence - cylindrical shape - good for combating SCE
Other device possibilities
- molecular size - may be useful as a molecular
sensor - biological compatibility - perhaps devices can
be assembled via biological recognition.
8 Metallic CNTs as interconnects
T. Iwai et al., (Fujitsu), 257, IEDM, 2005
9CNT-assisted organic-cell photovoltaics
Keymakis, APL, 80, 112, 2002
10Is there a DIGITAL future for nanotubes?
11Tennenhouse04
12H. Dai, APS, March, 2006
13Fabricated Carbon Nanotube FETs
20nm -ve SB R.V. Seidel et al., Nano Letters,
Dec. 2004
50nm MOS A. Javey et al., Stanford
14Small m sub-threshold slope improvement
Non-thermionic process S lt 60 mV/dec !!
J. Appenzeller et al., IEEE TED, 4, 481, 2005
15Carbon Nanotube FETs for HF
300 nm SB-CNFET A. Le Louarn et al., APL, 90,
233108, 2007
Single-tube drawbacks Imax ?A Zout k?
16High-frequency Carbon Nanotube FET
A. Le Louarn et al., APL, 233108, 2007
17Experimental results for fT
"Ultimate"
18Schrödinger-Poisson Solver
- Need full QM treatment to compute
- -- Q(z) within barrier regions
- -- Q in evanescent states (MIGS)
- -- resonance, coherence
- -- S ? D tunneling.
D.L. John et al., Nanotech04, 3, 65, 2004.
19Schrödinger-Poisson Normalization
S
D
CNT
Unbounded plane waves
20MODE CONSTRICTION and TRANSMISSION
Doubly degenerate lowest mode
T
CNT (few modes)
METAL (many modes)
21Quantized Conductance
In the low-temperature limit
Interfacial G even when transport is ballistic
in CNT
155 ?S for M2
22Carbon nanotube FETs model structures
SB-CNFET K. Alam et al., APL, 87, 073104, 2005
C-CNFET D.L. Pulfrey et al., IEEE TNT, 2007
23Propagation velocity and fT
24Image charges in transistors
BJT
_
_
_
QB
QC
FET qg ? qe
BJT qb lt qe
25Comparison of vbandSi NW, Si planar and CNT
(11,0) CNT Tight-binding
Si NW and planar Si J.Wang et al., APL, 86,
093113, 2005
vb,max (CNT) higher by factor of 5
26Si MOSFET and CNFET comparison
S. Lee et al., IEDM, 241, 2005
27AMBIPOLAR CONDUCTION
Experimental data M. Radosavljevic et al.,
arXiv cond-mat/0305570 v1
Vds - 0.4V Vgs -0.15 0.05 0.30
28Mobile electroluminescence and the LET
DRAIN
SOURCE
Ambipolar CNFET
Gate-controlled light emission
McGuire and Pulfrey, Nanotechnology, 17, 5805,
2006
29Biomolecular sensing schemes
1. Electroluminescence
Spectrometer and/or Photodetector
Analyte
Source
Drain
Gate
VDS
VGS
30CN biomolecular sensors
- CARBON NANOTUBES
- size compatibility with biomolecules,
- exposed surface,
- interactions that modify band structure,
- change in LDOS.
Gruner, Anal. Bioanal. Chem., 384, 322, 2006
31Biomolecular sensing schemes
2. Conductance
Star et al., Nano Lett., 3(4), 459, 2003
32Sensing amino acids, dipeptides
Protein building blocks
Alanine-Glutamine, Glycine-Glutamine - reduces
muscle wasting in inactive patients. Arginine-Glu
tamine - maintains muscle mass - boosts mucosal
immunity.
Glutamine-Glutamine - aids glutathione
biosynthesis. Tyrosine-Tyrosine - restores
PheTyr ratios in patients with renal disease.
33Simulation approach
34MD results
(12,11) CNs Dipeptides
Asparagine (hydrophilic)
Isoleucine (hydrophobic)
Abadir et al., IJHSE, accepted.
35Single-biomolecule detection
Asparagine (top) and isoleucine (bottom) adsorbed
on CNT between Al electrodes
Abadir et al., IEEE NANO Conf.
36Self-assembly of DNA-templated CNFETs
K. Keren et al., Science, 302, 1380, 2003