Browsing by Author "Li, Jian-Feng"
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Item What Structural Features Make Porous Carbons Work for Redox-Enhanced Electrochemical Capacitors? A Fundamental Investigation(American Chemical Society, 2021-02) Zhao, Yang; Taylor, Erin E.; Hu, Xudong; Evanko, Brian; Zeng, Xiaojun; Wang, Hengbin; Ohnishi, Ryohji; Tsukazaki, Takaki; Li, Jian-Feng; Stadie, Nicholas P.; Yoo, Seung Joon; Stucky, Galen D.; Boettcher, Shannon W.The addition of redox-active molecules into electrochemical-capacitor electrolytes provides increased specific energy density. Here we illustrate the underlying operational mechanisms and design principles for carbons with hierarchical pore sizes in the micropore (0.6–2 nm) to mesopore (2–3 nm, 5–30 nm) range as electrode materials in redox-enhanced electrochemical capacitors. When using iodide as a model redox additive, we discover that the redox capacity is correlated to the pore volume of the carbon electrodes when void space is included. The fastest rates are typically observed with pore-sizes >1 nm, while slow self-discharge requires pores <1 nm. When used without an ion-selective-membrane separator, the delivered capacity correlated with the quantity of redox species held within the carbon. A commercial microporous carbon, MSC30, with substantial hierarchy in pore size, including small <0.8 nm pores and larger 1.1–3 nm pores, showed the best overall performance, illustrating key design principles.