Physical, Chemical, and Electronic Properties of ......Physical, Chemical, and Electronic Properties...
Transcript of Physical, Chemical, and Electronic Properties of ......Physical, Chemical, and Electronic Properties...
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Physical, Chemical, and Electronic Properties of Nanostructured
Photocathodes: III–V nanowires
Jonas Johansson
Solid State Physics and the Nanometer Structure Consortium, Lund University, Sweden
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Outline
• Introduction to nanowires and their formation• Morphology and crystal structure• Heterostructures
– Axial– Radial (core/shell)
• Doping and pnjunctions• Patterned growth• Processing (including applications)
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1–10 μm
10–100 nm
Au
Semiconductormaterial
Introduction to nanowires• Nanowires in most III–V combinations
• Gold particle seeded growth (and gold–free growth)
– Aerosol particles– Lithography, evaporation, and lift–off
• Growth by– Metal Organic Vapor Phase Epitaxy– Chemical Beam Epitaxy
1 µm
InSbP. Caroff, ICMOVPEXIV,France, 2008 GaP
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How nanowires grow1. Deposit sizeselected Au nanoparticle
2. Supply precursors of the relevant materials
3. The nanowire grows under the Au particle
Electron microscopeimage of GaAs nanowires
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What is so special with nanowires?1. Perfect crystal
structures
Potential for many applications, including highefficiency and lowcost solarcells,lightemitting structures, 1D electronic devices, as well as photocathode structures…
4. On lowcostsilicon
3. Atomicallysharp interfaces
2. Mismatched materialcombinations
GaS
bG
aAs
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19.5°
• The same angle as for regular octahedra
• Straight when rotated 30°
• The wire is built of ”octahedron slices” and is consequently limited by {111} side facets
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Geometric model
• Models built with ATOMS<110> <112> 3D perspective view
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In nature
compare
Johansson et al, Nat Mater, 5 (2006) 574
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Our special case: twin plane superlattices (TPS) in InAs
40 6 0 80 10 0 120 1 40 160
0
1 0
2 0
3 0
4 0
5 0
6 0 E xp er im e n ta l d a ta M o d e l
Sin
gle
seg
men
t len
gth
(nm
)
N an o w ire D iam eter (n m )
b c
d
100 nm
a
<111>B
100 nm
D= 115 nmD= 105 nm D= 140 nm
A B
z= Dσ / 4γ− DΔμ
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Extreme case:• Wurtzite structure formation in nanowires with zinc blende as bulk
crystal structure.
• Wurtzite can be described as an uninterrupted sequence of faulty stacked layers (twin planes)
• Can this behaviour be controlled?• Yes, to some extent…
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GaP NW growth at different conditionsPulsed growthIn background
Continuous growthIn background
Continuous growthIn free background
Extended zinc blende (ZB) segments
Short ZB segments (lamellar twinning)
Extended wurtzite (WZ) segments
low Supersaturation (∆µ, C/Ceq) highJ Johansson et al., Crystal Growth & Des. 9 (2009) 766
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Fraction of wurtzite in InAs NWs
T = 420°C
• Thin wires WZ, thick wires ZB• Crossover diameter for the WZ to ZB transition
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Nanowires – heterostructures unlimited?
Substrate–wire
(III–V on Si)
Axial
(QD, barriers)
Radial
(QW, passivation)
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Atomically flat interfaces• Example of axial heterostructure: Highangle annular dark field TEM
of Double Barrier Resonant Tunneling Diode
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Combinations
K.A. Dick et al., Nano Lett. 7 (2007) 1817
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Core/shell wires• Example of radial heterostructure: characterization of AlInP shells
on GaAs nanowires
Scale bar = 100 nm N. Sköld et al., Nano Lett. 6 (2006) 2743
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Band structure calculations
Phys Rev B accepted
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Band structure calculations
For more information, visit: http://semiconductor.physics.uiowa.edu/
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Nanowire doping• n+p junctions in InP nanowires
n InP (111)B
nInPpInP
• XTESn=1E5, XDMZn=5.5 E5• ND=6E18 cm3, NA= xE17• 80 nm Au catalyst
order is important
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3210120
5
10
15
20
25
30
I (nA)
U (V)
Gate 10V Gate 0 Gate +10 V
0 1 2
1
1 0
1 0 0
1 0 0 0
I (n
A)
U ( V )
G ate 10V G ate 0 G ate + 10 V
n = 2 .9 7
n = 1 0 .1
n = 1 5 ,6
n+p junction IV characteristics
• pn junction behaviour• Reverse breakdown voltage about 20V• Ideality factor around 3
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Optical activity
• Light emitting diode• Quantum efficiency ~105 at 300K
Electroluminescence Photo current
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Patterned growth• Instead of randomly deposited aerosol deposition – use ebeam
lithography (ebl) + lift–off to define the gold particles • Nanowires in any 2D pattern
• Potential for upscaling: use nanoimprint lithography (NIL) instead of eblInP nanowires on InP(111)B
T. Mårtensson, PhD thesisT. Mårtensson et al, Nanotechnology 14 (2003) 1255; Nano Letters 4 (2004) 699
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Patterned growth, core/shell, doping
C. P. T Svensson et al, Nanotechnology 19 (2008) 305201
Schematics ofthe device
SEM image CCD imageshowing EL
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Nanowire field effect transistor • Process technology for
InAs nanowire wrapgate FETs:– HfO2 by ALD– SiOx by evaporation– HfO2 by ALD– Cr by evaporation– Photoresist as insulator– Ti/Au drain contact
evaporation
C Thelander et al, IEEE Electron Device Lett., 29 (2008) 206
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Electrical characteristics• High scalability
– Highk dielectric (HfO2)– Wrap gate architecture
• Promising material for integration– InAs nanowires can be grown
directly on Si (also without gold)*
C Thelander et al, IEEE Electron Device Lett., 29 (2008) 206*T Mårtensson et al, Adv Mat, 19 (2007) 1801 and B Mandl, unpublished
Si
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Summary
• Good understanding of nanowire growth
• Many possibilities for heterostructures
• Demonstration of pnjunctions in nanowires
• Process technology for nanowire devices
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Acknowledgements • Nanowire growth:
– Kimberly Dick– Brent Wacaser– Jessica Bolinsson– Thomas Mårtensson– Werner Seifert– Magnus Borgström
• TEM characterization:– Reine Wallenberg – Lisa Karlsson
• Aerosol fabrication:– Knut Deppert– Kimberly Dick– Maria Messing
• Optical characterization– Niklas Sköld– Johanna Trägårdh– Dan Hessman– MatsErik Pistol
• Electronics applications– Claes Thelander– Linus Fröberg– Carl Rehnstedt– LarsErik Wernersson
• Scientific leadership– Lars Samuelson
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Lund
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New EUSTREP: AMONRA
• Architectures, Materials and Onedimensional Nanowires for Photovoltaics Research and Applications
• Partners:– ULUND: Development of NW materials, NWPV physics, project
coordination– ISE: Design of PV architecture, verification, system design– ETH: Modeling of NWPV structure– QuNano: Development of processing– JKU: Xray and PL characterization of materials– DTU: TEM characterization of materials
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Schematic of tandem PV cell with embedded Esakitunneling diode and surrounding light guide
Silicon substrate
Front contacting gridConductive
layer
Back contact
n
p
n
n+
p
n
p
n
n+
p
n
p
n
n+
p
n
p
n
n+
p
Pass
ivatin
g sh
ell
> λ/n or< λ/neff
Embe
ddin
g(m
echa
nica
l/ele
ctric
al/o
ptica
l)
Lowbandgapsegment
Esaki diode
Highbandgapsegment