jim qiao - clemson university · jim qiao clemson transport phenomena laboratory clemson university...
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![Page 1: Jim Qiao - Clemson University · Jim Qiao Clemson Transport Phenomena Laboratory Clemson University Basic concepts of supercapacitor Numerical modeling –Why modeling? –Modeling](https://reader030.vdocuments.us/reader030/viewer/2022040219/5e1c4c37b9d753125a08af1b/html5/thumbnails/1.jpg)
Jim QiaoClemson Transport Phenomena Laboratory
Clemson University
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Basic concepts of supercapacitor
Numerical modeling
– Why modeling?
– Modeling at different scales
– Our capability
Project: virtual prototyping of supercapacitors
1/21/2009 Capacitor Consortium Planning Meeting 2
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1/21/2009 Capacitor Consortium Planning Meeting 3
Supercapacitor: electrical energy storage
device based on the electrical double layers
Key performance parameters
• energy density c A V2
• power density
Components and design issues
• electrode− large specific area desired (~2000m2/g)
− pore wettability
− kinetic pore accessibility
• electrolyte − high specific capacitance
− wide electrochemical window
− high conductivity
• separator
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1/21/2009 Capacitor Consortium Planning Meeting 4
Hierarchical porous materials with both nano- and meso-pores
– address the competing demands from large surface area vs. good
kinetic pore accessibility
– to achieve a balance between energy density and power density
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Given an electrode-electrolyte pair, what are the
– specific capacitance in mesopores
– specific capacitance in nanopores
• typically decreases with pore size, but increase is also observed
– wettability of the nano/meso-pores by electrolytes
1/21/2009 Capacitor Consortium Planning Meeting 5
dictates the maximum energy density of the supercapacitor
primarily an interfacial and electrochemistry problem
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Charging of a porous electrode
– charging dynamics in mesopores
– ion dynamics in nanopores
1/21/2009 Capacitor Consortium Planning Meeting 6
1-2 nm
dictates the charging/discharging kinetics and effective capacitance
governed by the Nernst-Planck equations
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A tool to understand the working of superCap
A tool for design optimization
– help explore design parameter space effectively
– help handle the conflicting requirements from different aspects of
performance
1/21/2009 Capacitor Consortium Planning Meeting 7
Numerical modeling
electrolyte
electrode materials
electrode structure
capacitance
charging kinetics
…
supercapacitor
Device
Performance
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Materials chemistry modeling to understand the specific capacitance
of an electrode-electrolyte pair
1/21/2009 Capacitor Consortium Planning Meeting 8
differential specific capacitance of an ionic liquid near a planar electrode
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1/21/2009 Capacitor Consortium Planning Meeting 9
Pore scale modeling of charging kinetics
System level modeling
feed pore scale results into system-level models
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Ultimate goal:
to develop user-friendly software for virtual prototyping of a superCap
based on hierarchical nanomaterials
1/21/2009 Capacitor Consortium Planning Meeting 10
pore scale simulation
electrode material,
pore size
electrolyte material
electrode pore
characteristics grain scale modeling
operating condition
single superCap cross-section modeling
packing condition
…system-level modeling
total
capacitance
charging
kinetics
temperature
behavior
…
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Develop a cross-section scale and system-level modeling package
capable of handling capacitance design at the device level
– charging kinetics
– discharging kinetics
– temperature behavior
– thermal management
1/21/2009 Capacitor Consortium Planning Meeting 11