wire-shaped supercapacitor by hydrothermal self-assembly of … · 2015. 12. 1. ·...
TRANSCRIPT
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Andrea Lamberti
22 September 2015
Wire-shaped supercapacitor by hydrothermal self-assembly of graphene
on copper wires
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Outline
Introduction Supercapacitors Wearable SCs
Graphene Aerogels Synthesis Characterizations
Wire-shaped Supercapacitors Device assembly Characteriztion Electrochemical performance
Conclusions
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Outline
Introduction Supercapacitors Wearable SCs
Graphene Aerogels Synthesis Characterizations
Wire-shaped Supercapacitors Device assembly Characteriztion Electrochemical performance
Conclusions
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Electrical double layer capacitance (EDLC) electrostatic energy storage by separating charges at the interface between the surface of a conductive electrode and an electrolyte without faradaic reactions
Pseudo-capacitance faradaic electrochemical energy storage by fast reversible surface redox reactions, intercalation or electrosorption at or near the surface of some electrode materials
Electrochemical supercapacitors
-1 0 1
-0,0021
-0,0014
-0,0007
0,0000
0,0007
0,0014
0,0021
Cu
rre
nt (A
)
Voltage (V)
10 mV/s
50 mV/s
100 mV/s
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Ragone chart EDL SCs high power density excellent cycling stability low energy density due to a limited specific capacitance of carbon materials
Pseudocapacitive materials (transition metal oxides or hydroxides) much higher specific capacitance, as much as ten times that of an EDLC. poor rate capability and low electrical conductivity
Common approach to improve the SC performance is to use composites of
pseudocapacitive materials and carbon as electrodes
General characteristics
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Conventional SCs have 2D planar architectures with two metal plates as current collectors, two “flat” electrodes, one membrane
charge separator, and electrolyte sandwiched together.
small-sized flexible energy storage units for low power electronics and sensors
Wearable electronics and smart textile
microsupercaps
fiber-based supercaps
Development of hybrid devices with integrated energy harvesting and storage
μbial fuel cell-SC hybrid device
solar harvester-SC hybrid device
mechanical harvester-SC hybrid device
Our goals/target applications
SCs configurations
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To date a fully developed textile energy storage device does not exist, nor does a
streamlined manufacturing process integrating the various components.
Wearable energy storage applications: provide power to medical biomonitoring devices or
implants, military equipment for soldiers in combat, safety and construction gear like illuminated
vests, …
Notable examples of wearable technology : Adidas MiCoach, Cutecircuit Galaxy Dress and
T-shirtOS, “Hi-call” Bluetooth enabled phone-glove, all are powered with conventional batteries
and capacitors.
Wearable electronics or e-Textile
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Design concept for a smart power bodysuit. (a) Piezoelectric patch converts body
movements to electrical energy; (b) textile antennas to transmit communications; (c)
textile electrochemical energy storage to store energy from harvesting devices; (d) integrated
conductive yarns act as leads to transmit energy or information throughout the garment.
Energy Environ. Sci., 2013, 6, 2698–2705
Smart power bodysuit
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Low costand flexible mesh-based supercapacitors for promising large-area flexible/wearable energy storage . Nano Energy(2014) 6, 82–91 An all-cotton-derived, arbitrarily foldable, high-
rate, electrochemical supercapacitor Phys.Chem. Chem. Phys., 2013, 15, 8042
Wearable supercapacitors
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A coaxial single fibre supercapacitor for energy Storage. Phys.Chem. Chem. Phys., 2013, 15, 12215
Electrolyte: PVA–H3PO4–H2O gel solution; this layer serves as both the ion transport layer and separator between two electrodes
Wire-shaped supercapacitors
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All-Graphene Core-Sheath Microfi bers for All-Solid-State, Stretchable Fibriform Supercapacitors and Wearable Electronic Textiles. Adv. Mater. 2013, 25, 2326–2331
Wire-shaped supercapacitors
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Outline
Introduction Supercapacitors Wearable SCs
Graphene Aerogels Synthesis Characterizations
Wire-shaped Supercapacitors Device assembly Characteriztion Electrochemical performance
Conclusions
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Requirements
high electrical conductivity
controlled porosity
high exposed area
Reduced graphene oxide aerogel
Process flow
Carbon based scaffolds
200°C 12 h R. Giardi et al.
2015 - Applied Materials Today
In press
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Typically SSA for ELDCs: > 1000 m²/g Theoretical value for graphene: ~ 2620 m²/g
XPS good results in GO reduction
Carbon based scaffolds
R. Giardi et al. 2015 - Applied
Materials Today In press
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Planar device as test bench
Dispersion of active material and 2.8 wt% of PVDF in NMP 13:1 ratio Slurry A: Graphite + Acetylene black + PVDF 13:1:1 ratio Slurry B: 50% rGO + 50% Graphite + Acetylene black + PVDF 13:1:1 ratio Platinum sputtered on top of glass slides Current collectors
Graphite/PVDF Graphene/PVDF
-1 0 1
-0,0021
-0,0014
-0,0007
0,0000
0,0007
0,0014
0,0021
Cu
rre
nt (A
)
Voltage (V)
10 mV/s
50 mV/s
100 mV/s
-1 0 1
-0,003
-0,002
-0,001
0,000
0,001
0,002
0,003
Cu
rre
nt (A
)
Voltage (V)
10 mV/s
50 mV/s
100 mV/s
R. Giardi 2015 - Applied
Materials Today In press
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Outline
Introduction Supercapacitors Wearable SCs
Graphene Aerogels Synthesis Characterizations
Wire-shaped Supercapacitors Device assembly Characteriztion Electrochemical performance
Conclusions
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Cu wire
RGO@Cu wire Pro
cess
flo
w
Graphene aerogel self-assembly
200°C 12 h
A.Lamberti et al. Submitted to ADV. ENER.
MATER.
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Material characterizations
A.Lamberti et al. - Submitted to ADV. ENER. MATER.
G
D
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Polyvinylpyrrolidone (PVP) gel was prepared by dissolving 10g PVP in 10 ml H2O at 90°C PVP gel electrolyte was prepared by dissolving 1g NaI in 20g PVP gel water at 90°C.
Device assembly
A.Lamberti et al. - Submitted to ADV. ENER. MATER.
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Electrochemical characterizations
A.Lamberti et al. - Submitted to ADV. ENER. MATER.
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Electrochemical characterizations
Yu, Dingshan, et al. "Emergence of fiber supercapacitors." Chemical Society Reviews 44.3 (2015): 647-662.
62 F/g
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Electrochemical characterizations
Yu, Dingshan, et al. "Emergence of fiber supercapacitors." Chemical Society Reviews 44.3 (2015): 647-662.
13 mF/cm
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Outline
Introduction Supercapacitors Wearable SCs
Graphene Aerogels Synthesis Characterizations
Wire-shaped Supercapacitors Device assembly Characteriztion Electrochemical performance
Conclusions
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Conclusions
Development of a graphene aerogel self-assembly process on
copper wires
Deep characterization by chemico-phisical point on view
Good performance of assembled and integrated devices (bending)
Test different current collectors
Test different electrolytes
Pseudosupercapacitors exploiting Metal-Oxides or Graphene
composites
Packaging
Self-powered devices (energy harvesting & storage)
Future developments
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Energy harvesting & storage P
ho
tovo
ltai
cs: D
ye-
sen
siti
zed
so
lar
cells
LOAD
1 DSC
2 DSCs
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Energy harvesting & storage
Mechanical harvester: piezo-nanogenerator
S. Stassi et al 2015 - Submitted to NANOENERGY
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Acknoledgements
FILGREEN – national project
Prof. E. Tresso Prof. F. Pirri
Dr. S. Bianco
Dr. R. Giardi
Dott. A. Gigot
Dr. P. Rivolo
Dr. M. Castellino
Dr. D. Mombello
Dr. S.Marasso
Dr. M. Cocuzza
Dr. M. Fontana
Dr. M. Serrapede
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Thank you for
your kind attention!
Questions?
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960 956 952 948 944 940 936 932 928 924
a)
Cu2+
Cu2+
Cu+
Cu2+
satellite
Cu2p1/2
Inte
ns
ity
(a
rb. u
n.)
Binding energy (eV)
before sputtering
after sputtering
Cu2p3/2
Cu+
585 580 575 570 565 560 555 550
b) before sputtering
after sputtering
Inte
ns
ity
(a
rb. u
n.)
Binding energy (eV)
Cu LMM Auger peaks
FIB & XPS characterizations
Bare cross-section
without FIB
A.Lamberti et al. - Submitted to ADV. ENER. MATER.
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Other metal wires
A.Lamberti et al. - Submitted to ADV. ENER. MATER.
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Optimizations
Cover Cu with Graphene monolayer by CVD
Exploit different current collector carbon fibers
Reference With G CVD
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Alternative textile electrolyte
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SU8 lithography (200 μm) Graphene-based (or carbon-based) paste
deposited by doctor blade
Liquid electrolyte (1M Na2SO4)+ microfluidic cap
-0,10 -0,05 0,00 0,05 0,10
-0,003
-0,002
-0,001
0,000
0,001
0,002
Cu
rre
nt
/ A
Voltage / V
Grafene "in-situ"
Microsupercapacitors
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Graphite/PVDF Graphene/PVDF
Graphene/MoO2/PVDF
-1 0 1
-0,0021
-0,0014
-0,0007
0,0000
0,0007
0,0014
0,0021
Cu
rre
nt (A
)
Voltage (V)
10 mV/s
50 mV/s
100 mV/s
-1 0 1
-0,003
-0,002
-0,001
0,000
0,001
0,002
0,003
Cu
rre
nt (A
)
Voltage (V)
10 mV/s
50 mV/s
100 mV/s
0,00 0,05 0,10
0
100
200
300
Sp
ecific
Ca
pa
cita
nce
(F
/g)
Scan Rate (V/s)
Graphite/without PVDF_NaCl
Graphite/PVDF_15/1_NaCl
Graphene/PVDF_15/1_NaCl
Graphene+MoO2/PVDF_15/1_NaCl
Graphene+MoS2/PVDF_15/1_NaCl
-1 0 1
-0,006
-0,004
-0,002
0,000
0,002
0,004
0,006
Cu
rre
nt (A
)
Voltage (V)
0.5 mV/s
10 mV/s
50 mV/s
100 mV/s
Planar device as test bench
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Pseudo SCs – CuxO nanostructures
Poster n° 185 ANM-Posters 20 July (16.00-18.00hrs) A. Lamberti et al. Flexible copper oxide-based supercapacitor by thermal oxidation of copper foils
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Pseudo SCs – TiO2 Nanotubes
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In situ synthesis of MoO2 nanoparticles
from a liquid precursor
Decoration with MoO2 NPs
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Packaging: stereolithography
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Asymmetric carbon nanotube–MnO2 two-ply yarn supercapacitors for wearable Electronics, Nanotechnology 25 (2014) 135401 (8pp)
Industrial integration