Evanko Presentation
Transcript of Evanko Presentation
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"University of Oregon"Sang-Eun Chun, Shannon Boettcher*""
Oregon State University"Xingfeng Wang, Bao Wang, Vadivukarasi Raju, David Ji*""
University of California, Santa Barbara"Brian Evanko, Nick Parker, Dave Auston, Galen Stucky*"""April 29, 2014"
High Power Capacitors Boosted with Both Anolyte and Catholyte "
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Electrochemical Capacitors
• High Power Density • Low Energy Density • Excellent Cycle
Efficiency, Cyclability, and Lifetime
• Referred to also as supercapacitors, ultracapacitors, and EDLCs
P. Simon and Y. Gogotsi, “Materials for electrochemical capacitors.,” Nat. Mater., vol. 7, no. 11, pp. 845–54, Nov. 2008.
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Electrochemical Capacitors
Traditional Capacitor Supercapacitor
P. Jampani, et al. “Advancing the supercapacitor materials and technology frontier” Electrochem. Soc. Interface, 2010.
- - - -
+ +
+ +
d
A
ε
- +
- +
- + - +
- +
- +
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Electrochemical Capacitors
• Energy stored in a capacitor is proportional to the area under the charge/discharge curve.
+ −
K+
K+
Galvanostatic discharge profiles (1 A/g) of devices with KI and VOSO4 concentrations of І) 0.15 M and 0.1 M, II) 0.3 M and 0.2 M, and III) 0.75 M and 0.5 M, respectively
SO42-
K+
K+ SO42-
K+
K+ SO42-
Electrolyte: Aqueous K2SO4
Specific Energy: 5 Wh/kg
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Redox-Active Electrolytes: Gen I Chemistry
• Redox-active ions in electrolyte generate pseudocapacitance
• Fast kinetics without material degradation
+ I-
I3-
I- SO4
2-
I-
(+) 3I- → I3- + 2e-
SO42-
− V3+
VO2+
K+
VO2+
K+
VO2+
(-) 2VO2+ + 2e- → 2V3+
Electrolyte: 0.1 M VOSO4 and 0.15 M KI
Galvanostatic discharge profiles (1 A/g) of devices with KI and VOSO4 concentrations of І) 0.15 M and 0.1 M, II) 0.3 M and 0.2 M, and III) 0.75 M and 0.5 M, respectively
Specific Energy: 20 Wh/kg
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Redox-Active Electrolytes: Gen II Chemistry
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Electrolyte: 0.1 M methyl viologen, 1 M KBr
• The methyl viologen bromide system behaves as a capacitor at low voltages and a battery at higher voltages.
• 1.5 V operating window with Br -→ Br3
- oxidation and MV2+ → MV+ reduction greatly increases specific energy.
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Redox-Active Electrolytes: Gen II Chemistry
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Potential window 1.0 V 1.2 V 1.4 V
Specific capacity (mAh/g) 8.6 18.9 36.8
Energy density (Wh/kg) 4.6 15.1 36.6
Coulombic (%) 99.3 99.2 98.2
Energy (%) 84.2 89.1 87.0
• Self-‐discharge A#er 6 h of self-‐discharge, 22 Wh/kg is s3ll reserved in Br/MV
* Ac3ve electrode mass-‐based energy density measured from Swagelok-‐cell
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Design of Electrochemical Cell
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Epoxy insula3ng layer
separator (filter paper)
Swagelok-‐type cell Volume-‐limi<ng cell
Minimal amount of electrode + electrolyte mass
Side
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Scaling Up
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Cell Goals for 18650 Format Redox Supercapacitor
Current Commercially Available Device
Electrolyte Aqueous (1.5V) Organic (2.7V)
Dimensions H: 65mm ; OD: 18mm H: 45mm ; OD: 22mm
Volume 16.5 cm3 17.1 cm3
Specific Energy ≥ 15 Wh/kg 4.4 Wh/kg
Specific Power ≥ 2000 W/kg 7000 W/kg
Temperature -‐10 ºC to 60ºC -‐40ºC to 65ºC
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18650 Prototyping Line
• Electrodes are coated by doctor blade on vacuum chuck with PID controlled IR lamp drying.
• Roll press installation was completed April 10.
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18650 Prototyping Line
• We also have received and installed equipment for welding, necking, and sealing 18650 cans.
• Testing is done in-house, in the remodeled MRL Battery Lab.
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Questions