Nano Structures and Dynamics Lab., MSE, NTHU Self-Assembled Nanostructures Mediated by Gold...
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Nano Structures and Dynamics Lab., MSE, NTHU
Self-Assembled Nanostructures Mediated by Gold Particles
Lih J. Chen
Department of Materials Science and Engineering, National Tsing Hua University, Hsinchu, Taiwan
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Nano Structures and Dynamics Lab., MSE, NTHU
Nano = “dwarf” in Greek
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Nano Structures and Dynamics Lab., MSE, NTHU
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Nano Structures and Dynamics Lab., MSE, NTHU
J. Heath, L-09, School on Nanomechanics, Hawaii (2002).
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Nano Structures and Dynamics Lab., MSE, NTHU
Nature, 419, 553 (2002).
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Nano Structures and Dynamics Lab., MSE, NTHU
1D nanostructures
• to provide a good system to investigate the dependence of electrical and thermal transport or mechanical properties on dimensionality and size reduction• to play an important role as both interconnects and functional units in fabricating electronic, optoelectronic, electrochemical, and electromechanical devices with nanoscale dimensions
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Nano Structures and Dynamics Lab., MSE, NTHU
micro- (cells) and nanostructure (wax crystals)
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Nano Structures and Dynamics Lab., MSE, NTHU
Opal ( 蛋白石 )與其奈米結構
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Nano Structures and Dynamics Lab., MSE, NTHU
蝴蝶翅膀與其奈米結構
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Nano Structures and Dynamics Lab., MSE, NTHU
Small-sized Au catalysis has attracted increasing interest because of the discovery of extraordinary catalytic activity and specificity.
Au nanoparticles consisting of metal inner-core and organic outer-shell can be acquired as the nanostructured catalysts from size controllability, monodispersity, processibility, and aggregation resistivity.
Self-assembled honeycomb networks of Au nanoparticles show promise as the regular patterns for the growth of various nanowires without complex lithography.
Introduction
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Nano Structures and Dynamics Lab., MSE, NTHU
Two-phase Method (Au@TOAB)
Stirrer plate
Phase-transfer reagents(C8H7)4NBr
Reduction reagent
(NaBH4)
HAuCl4·3H2O (aq.)Stirring rod
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Nano Structures and Dynamics Lab., MSE, NTHU
Au@TOAB
R= C8H17R’= C12H25
Au@TOAB-DT
N
R
RR
R Br
Au
N
R
RR
R Br
NR
R R
RBr
N R
R RR
Br
NRRR
RBr
NR
RR
RBr
NR
RRR
Br
NR RR
RBr
Au
S
R’
S
R’
S
R’
SR’
S
R’ S
R’
S
R’
S R’
S
R’S
R’
S
R’S
R’
S
R’
S
R’
S
R’ S
R’
TOAB desorption
DT adsorption
Displacement Reaction of Outer-Shells
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Nano Structures and Dynamics Lab., MSE, NTHU
Displacement Reaction of Outer-Shells
TOAB desorption
DT adsorption
Au@TOAB Au@TOAB-DT
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Nano Structures and Dynamics Lab., MSE, NTHU
Au@TOAB-DT
2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 7.00
10
20
30
40
50
average diameter = 4.9 nm
Fre
qu
enc
y
Diameter (nm)
std dev. 0.27nm
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Nano Structures and Dynamics Lab., MSE, NTHU
Drying Pattern
Si substrate/Cu/Al
Controlled temperature
Si substrate/Cu/Al
Controlled temperature
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Nano Structures and Dynamics Lab., MSE, NTHU
Self-assembled honeycomb networks (as-cast)Self-assembled honeycomb networks (as-cast)
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Nano Structures and Dynamics Lab., MSE, NTHU
800 ℃Back
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Nano Structures and Dynamics Lab., MSE, NTHU400-1000-1000 0C, 30 min
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Nano Structures and Dynamics Lab., MSE, NTHU
400-1000 0C, 30 minP.Y. Su et al. Appl. Phys. Lett.
84, 3480 (2004).
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Nano Structures and Dynamics Lab., MSE, NTHU1100 0C, 30 min
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Nano Structures and Dynamics Lab., MSE, NTHU
1100 ℃Back
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Nano Structures and Dynamics Lab., MSE, NTHUNano Structures and Dynamics Lab MSE NTHU
950 -60 min℃ 1050 -60 min℃1000 -75 min℃
1080 -60 min℃
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Nano Structures and Dynamics Lab., MSE, NTHU
氧化矽奈米線與其對應陰極發光圖
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Nano Structures and Dynamics Lab., MSE, NTHU
at %
O 70.33
Si 24.12
Au 5.55
at %
O 39.94
Si 33.36
Au 26.7
EDS Analysis
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Nano Structures and Dynamics Lab., MSE, NTHU
TEM observationTEM observation
100 nm1 µm
100 nm
100 nm
Si substrate 100-nm-thick oxide
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Nano Structures and Dynamics Lab., MSE, NTHU
100 nm
0 5 10 15 20
O
Si
Cu
0 5 10 15 20
OSi
Cu
AuAu
EDS analysis
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Nano Structures and Dynamics Lab., MSE, NTHU
As cast 200 - 950 ℃ 1000 ℃
1100 ℃
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Nano Structures and Dynamics Lab., MSE, NTHU
thin oxide ~10 nm
Au-O compound
oxide~10 nm
Si
Si
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Nano Structures and Dynamics Lab., MSE, NTHU
thick oxide ~100 nm
Au-O compound
Si
Si
SiO2
SiO2
oxide~100 nm
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Nano Structures and Dynamics Lab., MSE, NTHU
SiOx decomposed
Si
Au AuAu
Ⅰ100-nm-thick thermal oxide layer
Au-Si-O liquid alloy
SiⅡ
Ⅲ
a. VLS growth mechanism
Vapor source
1.
2.Si(s) + SiO2(s) 2SiOx(g)
SiOx(L) SiOx(g)
b. Oxide-assisted growth mechanismSiOx vapor
SiOx wireFeature:
high-purity nanowires
without the need of a metal catalyst
Adv. Mater. 15, 635 (2003)
Si
flower-like structure
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Nano Structures and Dynamics Lab., MSE, NTHU
Si
Nano Lett., 3, 1317 (2003): Au particle
: ZnO nanorod
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Nano Structures and Dynamics Lab., MSE, NTHU
P. Yang et al.J. Am. Chem. Soc. 125, 4728 (2003)
Dynamics and Nanostructures Lab.Dynamics and Nanostructures Lab.
ZnO Nanolasers: What on Earth?
Z. L. Wang et al. Nano Lett. 2004, 4, 423.
★ ZnO Dendritic Array
★ ZnO nonorods
Power-dependent PL spectra
Angle-dependent PL spectrasubstrate
Excitation light
Light emission
ZnO nanorods
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Nano Structures and Dynamics Lab., MSE, NTHU
Growth of ZnO nanowires
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Nano Structures and Dynamics Lab., MSE, NTHU
★1D ZnO arrays were synthesized at 800 ℃ -1100 for 90 min.℃
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Nano Structures and Dynamics Lab., MSE, NTHU
PL Spectrum of ZnO Nanolasers
340 360 380 400 420 440
386 nm
Annealing Temperature (℃)
PL
In
ten
sity
(ar
b. u
nit
)
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Nano Structures and Dynamics Lab., MSE, NTHU
★ Patterned Au nanodots by AFM
0 10 20 nm
m
★★ Substrate: ZnO/Si or Al2O3
substratesubstrate
0 4 8 nm
m
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Nano Structures and Dynamics Lab., MSE, NTHU
Patterned ZnO Lasers by SPLPatterned ZnO Lasers by SPL★ working pressure: 2.7 torr ★ working pressure: 2.7 torr
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Nano Structures and Dynamics Lab., MSE, NTHU
ZnS Nanorods
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Nano Structures and Dynamics Lab., MSE, NTHU
Au/Sapphire
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Si/Au/Sapphire
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Si/Au/Sapphire
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Si/Au/Sapphire
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Nano Structures and Dynamics Lab., MSE, NTHU
Si/Au/Sapphire
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Nano Structures and Dynamics Lab., MSE, NTHU
Vapor transport process:Vapor transport process: self-organized Au particles on Alself-organized Au particles on Al22OO3 3 substrate - 9substrate - 9
10 10 00C, Si source- 1200 C, Si source- 1200 00C, Ar carrier gas 50 sccm, 2hr+3hr+5hrC, Ar carrier gas 50 sccm, 2hr+3hr+5hr
AlAl22OO33 Zone axis [1,-1,0] Zone axis [1,-1,0]
[0,0,6][0,0,6]
[1,1,1][1,1,1][1,-1,1][1,-1,1]
[0,2,0][0,2,0]
Au Zone axis [1,0,-1]Au Zone axis [1,0,-1]
Au Zone axis [1,0,-1]Au Zone axis [1,0,-1]
AlAl22OO33 Zone axis [1,-1,0] Zone axis [1,-1,0]
[1,1,1][1,1,1]
[0,0,6][0,0,6]
Au (1,1,1) //Au (1,1,1) //AlAl22OO33 (0,0,6) (0,0,6)
Au (0,2,0)Au (0,2,0)d = 0.204 nmd = 0.204 nmAlAl22OO33 (1,1,3) (1,1,3)d = 0.208 nmd = 0.208 nmEpitaxy ???Epitaxy ???
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Nano Structures and Dynamics Lab., MSE, NTHU
11
22
33
Vapor transport process:Vapor transport process: self-organized Au particles on self-organized Au particles on AlAl22OO3 3 substrate - 910 substrate - 910 00C, Si source- 1200 C, Si source- 1200 00C, Ar carrier gas C, Ar carrier gas
50 sccm, 2hr+3hr+5hr50 sccm, 2hr+3hr+5hr
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Nano Structures and Dynamics Lab., MSE, NTHU
1
2
3
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Nano Structures and Dynamics Lab., MSE, NTHU
100 nm
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50 nm
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Nano Structures and Dynamics Lab., MSE, NTHU
Vapor transport process:Vapor transport process: self-organized Au particles on Si (111)self-organized Au particles on Si (111)substrate - 910 substrate - 910 00C, Si source- 1200 C, Si source- 1200 00C, 2 hr, Ar carrier gas 50 sccmC, 2 hr, Ar carrier gas 50 sccm
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Nano Structures and Dynamics Lab., MSE, NTHU
(a) (b)
Si source, 900 0C
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Nano Structures and Dynamics Lab., MSE, NTHU
0 1000 2000 3000 40000
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Fig. 1 (a) Model structures of Au nanocluster (with 68 Au atoms) after 900 Fig. 1 (a) Model structures of Au nanocluster (with 68 Au atoms) after 900 00C, 1601 3C, 1601 3fs-time steps (4.8ps) simulated annealing. (b) Displacement curves of Au atoms durfs-time steps (4.8ps) simulated annealing. (b) Displacement curves of Au atoms during the 900 ing the 900 00C simulated annealing.C simulated annealing.
The surface diffusion speed can be as high as 100 m/sec at 900 The surface diffusion speed can be as high as 100 m/sec at 900 00C.C.
Simulation results : the initial model structure of Au fcc clusterSimulation results : the initial model structure of Au fcc cluster
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Nano Structures and Dynamics Lab., MSE, NTHU
0 1000 2000 30000
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Fig. 2 Atomic structures of four SiO molecules initially absorbed on the Au nanoclFig. 2 Atomic structures of four SiO molecules initially absorbed on the Au nanocluster (with 68 Au atoms) surface (a) and after 1001 time steps (3ps) simulation (b).uster (with 68 Au atoms) surface (a) and after 1001 time steps (3ps) simulation (b). (c) Displacement curves of Au (black), and Si-O (color) atoms during the 900 (c) Displacement curves of Au (black), and Si-O (color) atoms during the 900 00C siC simulated annealing.mulated annealing.
Simulation result : the interaction of SiO vapor with Au particleSimulation result : the interaction of SiO vapor with Au particle
None of the SiO molecules was found to diffuse into Au cluster.None of the SiO molecules was found to diffuse into Au cluster.
The SiO molecules exhibit higher surface diffusion speed than Au atom. The SiO molecules exhibit higher surface diffusion speed than Au atom. After absorbing the SiO molecules, the surface diffusion speed of Au atom decrAfter absorbing the SiO molecules, the surface diffusion speed of Au atom decrease.ease.
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Nano Structures and Dynamics Lab., MSE, NTHU
0 1000 2000 30000
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Fig. 3 Atomic structures of four Si atoms initially absorbed on the Au nanoclusteFig. 3 Atomic structures of four Si atoms initially absorbed on the Au nanocluster (with 68 Au atoms) surface (a) and after 1001 time steps (3ps) simulation (b). r (with 68 Au atoms) surface (a) and after 1001 time steps (3ps) simulation (b). (c) Displacement curves of Au (black), Si (color) atoms during the 900 (c) Displacement curves of Au (black), Si (color) atoms during the 900 00C simulatC simulated annealing.ed annealing.
Simulation result : the interaction of Si vapor with Au particleSimulation result : the interaction of Si vapor with Au particle
Si atoms absorbed onto the Au surface would intermix with Au atoms.Si atoms absorbed onto the Au surface would intermix with Au atoms.
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Nano Structures and Dynamics Lab., MSE, NTHU
Self-organized Ag particle network
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Nano Structures and Dynamics Lab., MSE, NTHUTFP + water, rapid evaporation
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Nano Structures and Dynamics Lab., MSE, NTHUNanoparticle Network
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Nano Structures and Dynamics Lab., MSE, NTHU
Thickness Dependence MorphologyThickness Dependence Morphology
FESEM images with the same magnifications of different spin-coated speed shown as follows (a) 1000rpm (b) 2200rpm (c) 3100rpm (d) 3800rpm (e) 4300rpm (f) 5200rpm (g) 6400rpm (h) 7100rpm (g) 8300rpm, respectively
100nm
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(a) (b) (c)
(d) (e) (f)
(g) (h) (i)
Self-Assemble Diblock Copolymer
18nm
36nm
1μm
Two fabrication methods: Diblock copolymer& nanosphere
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Nano Structures and Dynamics Lab., MSE, NTHU
1μm 1μm
Polystyrene Nanospheres
1μm
1μm
10μm
1μm
Evaporation DepositionEvaporation Deposition Sputtering CoatingsSputtering Coatings
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Nano Structures and Dynamics Lab., MSE, NTHU
10μm
1μm
Size-Tunable Platinum Nanoparticles
100nm 100nm 100nm 100nm
As-sputtered Image As-annealed Image
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Nano Structures and Dynamics Lab., MSE, NTHU
1μm100nm
Low and high magnification SEM images of nickel disilicidearray formed by electron beam evaporation after annealing theNi at 900 . ℃
Chemical oxide
Another approach: ion implantation and solid phase epitaxy
Sioxide
Ge ionSPE and oxide removal Periodic nanometer scale
stress filed template
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Growth of nanostructures on Si and Si1-xGex/(001)Si heterostructures
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Nano Structures and Dynamics Lab., MSE, NTHU
Growth of Si-Ge oxide nanowires
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Nano Structures and Dynamics Lab., MSE, NTHUAu particles on Si0.8Ge0.2, 1140 0C, 30 min
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Nano Structures and Dynamics Lab., MSE, NTHU
300 400 500 600 700 800
SiGeONWs SiONWs
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PL
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Si and Si1-xGex substrates annealed 1140 ℃ for 1h
PL measurement of Si and Si1-xGex oxide nanostructures
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Nano Structures and Dynamics Lab., MSE, NTHU
PL Spectra of SiGeONWs at Different Annealing Temperature
950 1000 1050 1100 1150 12000
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Annealing temperature↑, Density of NWs↑, PL peak intensity↑.PL peak position towards the longer wavelength slightly.
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Nano Structures and Dynamics Lab., MSE, NTHU
ConclusionsConclusions
1. Self-assembled growth of hexagonal Au or Ag particle networks on a variety of substrates (Si, SiOx, Si-Ge, Si3N4, Al2O3, MgO) has been achieved
2. The presence of an oxide layer at the Au/Si interface stabilizes the Au particles at the intersections at a temperature as high as 1000 ℃.
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Nano Structures and Dynamics Lab., MSE, NTHU
ConclusionsConclusions
3. The cell and particle size can be adjusted from 200 nm-12 m and 20-400 nm, respectively
4. A wealth of novel nanostructures (SiOx, Si and ZnO nanowires, Cu nanoparticles) can be grown on the templates
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Nano Structures and Dynamics Lab., MSE, NTHU
ConclusionsConclusions
5. The network provides a convenient template for the preparation of other functionalized materials (SH-group) for a variety of applications
6. The template with its distinct structure shall permit the monitoring of changes occurred on individual particles, which may leads applications such as molecular sensing
7. The growth mechanisms of nanostructures can be elucidated by in-situ TEM
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Nano Structures and Dynamics Lab., MSE, NTHU
Acknowledgments
P.Y. Su, J.C. Hu, J.H. He, T.F. Chiang, J.H. Wang (MSE, NTHU)J.M. Liang (NDL, NSC)M. Huang, T.C. Kwo (Chem, NTHU)S.L. Cheng (CMS, NCU)NSC, MoE