2016
DOI: 10.1002/adfm.201601904
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A New Approach to Tuning Carbon Ultramicropore Size at Sub‐Angstrom Level for Maximizing Specific Capacitance and CO2 Uptake

Abstract: Ultramicroporous carbon materials with uniform pore size accurately adjusted to the dimension of electrolyte ions or CO2 molecule are highly desirable for maximizing specific capacitance and CO2 uptake. However, efficient ways to fine‐tuning ultramicropore size at angstrom level are scarce. A completely new approach to precisely tuning carbon ultramicropore size at sub‐angstrom level is proposed herein. Due to the varying activating strength and size of the alkali ions, the ultramicropore size can be finely tu… Show more

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Cited by 135 publications
(83 citation statements)
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“…These fascinating and versatile characteristics make carbons of special interest compared to other porous solids such as zeolites, metal‐organic frameworks (MOFs) or coordinated/cross‐linked polymers (CPs), and other layered materials. Therefore, these materials are being actively and continuously explored and numerous synthesis routes are proposed . For example, the templates of presynthesized molecular architectures of mesoporous silica, CPs, MOFs, and zeolites are often used to achieve control over porosities.…”
Section: Introductionmentioning
confidence: 99%
“…These fascinating and versatile characteristics make carbons of special interest compared to other porous solids such as zeolites, metal‐organic frameworks (MOFs) or coordinated/cross‐linked polymers (CPs), and other layered materials. Therefore, these materials are being actively and continuously explored and numerous synthesis routes are proposed . For example, the templates of presynthesized molecular architectures of mesoporous silica, CPs, MOFs, and zeolites are often used to achieve control over porosities.…”
Section: Introductionmentioning
confidence: 99%
“…Among the samples, CsAC (CsOH activated) showed exclusive ultra‐microporosity, and thus high CO 2 uptake values at low pressures were obtained (22.88 and 6.6 wt.% at 1 and 0.15 bar, 25°C, respectively) (Fig. ) …”
Section: Enhancing Pcc Performance Of Carbonsmentioning
confidence: 98%
“…Analysis of the narrow microporosity by Dubinin−Radushkevich equation of: (a) NaAC, b) KAC, (c) RbAC, and (d) CsAC . Reprinted with permission from Zhou J, Li Z, Xing W, Shen H, Bi X, Zhu T, et al .…”
Section: Enhancing Pcc Performance Of Carbonsmentioning
confidence: 99%
“…Meanwhile, potassium vapors may intercalate into the carbon layers to form graphite intercalation-like compounds and cause swelling and the disruption of the carbon microstructure, which thereby generates even more ultramicroporosity. [44][45][46] Furthermore, pure CH 3 COOK was also annealed at 800 C, but the black product was failed to be collected by 8000 rpm centrifugation, excluding the in°uences of CH 3 COOK-derived products. Higher resolution TEM images in Figs.…”
Section: Microstructure and Chemical Compositionmentioning
confidence: 99%