Qingzhong Xue scite author profile

Microporous carbon materials with extremely small pore size are prepared by employing polyaniline as a carbon precursor and KOH as an activating agent. CO(2) sorption performance of the materials is systematically investigated at the temperatures of 0, 25 and 75 °C. The prepared carbons show very high CO(2) uptake of up to 1.86 and 1.39 mmol g(-1) under 1 bar, 75 °C and 0.15 bar, 25 °C, respectively. These values are amongst the highest CO(2) capture amounts of the known carbon materials. The relation between CO(2) uptake and pore size at different temperatures is studied. An interesting and innovative point that the micropores with pore size smaller than a critical value play a crucial role in CO(2) adsorption at different temperatures is demonstrated. It is found that the higher the sorption temperature is, the smaller this critical value of pore size is. Pores smaller than 0.54 nm are manifested to determine CO(2) capture capacity at high sorption temperature, e.g. 75 °C. This research proposes a basic principle for designing highly efficient CO(2) carbon adsorbents; that is, the adsorbents should be primarily rich in extremely small micropores.

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Stable CoSe₂/carbon nanodice@reduced graphene oxide composites for high-performance rechargeable aluminum-ion batteries

Cai

Zhao

et al. 2018

Energy Environ. Sci.

250

166

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Qingzhong Xue

Review on electrical discharge plasma technology for wastewater remediation

Model for thermal conductivity of carbon nanotube-based composites

Critical role of small micropores in high CO2 uptake

Stable CoSe₂/carbon nanodice@reduced graphene oxide composites for high-performance rechargeable aluminum-ion batteries

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Qingzhong Xue

Review on electrical discharge plasma technology for wastewater remediation

Model for thermal conductivity of carbon nanotube-based composites

Critical role of small micropores in high CO2 uptake

Stable CoSe2/carbon nanodice@reduced graphene oxide composites for high-performance rechargeable aluminum-ion batteries

Contact Info

Product

Resources

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Stable CoSe₂/carbon nanodice@reduced graphene oxide composites for high-performance rechargeable aluminum-ion batteries