Your search keyword '"Shi, Jinsong"' showing total 2 results

1. N-doped hierarchically porous carbons prepared with the assistance of chemical blowing and in-situ hard template as highly efficient CO2 adsorbents: A combined experimental and theoretical study.

Author

Shi, Jinsong, Xu, Jianguo, Cui, Hongmin, Zhou, Youwen, Yan, Nanfu, Yan, Runhan, and You, Shengyong

Subjects

*DOPING agents (Chemistry), *SORBENTS, *BLOWING agents, *CARBON dioxide, *ACTIVATION (Chemistry), *FOAM, *CARBON dioxide adsorption

Abstract

In the current work, we presented the synthesis of N-doped hierarchically porous carbons (NDHPCs) through chemical activation of hierarchically structured precursor derived from polyvinylpyrrolidone (PVP) and magnesium acetate tetrahydrate. Magnesium acetate tetrahydrate served as the blowing agent, and its decomposition product MgO served as the in-situ formed hard template. Combined with KHCO 3 activation, the NDHPCs demonstrated a unique micro- meso -macroporous structure. Owing to the highly porous structure (1560–2545 m2/g) and enriched N-doping (1.48–6.31 wt%), the NDHPCs were investigated as potential CO 2 adsorbents in both post-combustion capture and pre-combustion capture applications. When the adsorption temperature was 25 °C, the samples showed outstanding capture performances at both 1 bar (2.97–3.88 mmol/g) and 20 bar (13.24–19.89 mmol/g). The adsorption performances were further analyzed with grand canonical Monte Carlo (GCMC) simulation. Effects of various physicochemical properties on CO 2 adsorption at different pressures were thus revealed with a combined experimental-theoretical approach. [Display omitted] • NDHPCs with unique micro- meso -macroporous structure are prepared. • The precursor is prepared through chemical blowing and in-situ hard template. • The NDHPCs demonstrate high S BET (1560–2545 m2/g) and N content (1.48–6.31 wt%). • At 25 °C and 20 bar, CO 2 uptake of the NDHPCs reaches 19.89 mmol/g. [ABSTRACT FROM AUTHOR]

Published

2024

2. Synthesis of highly porous N-doped hollow carbon nanospheres with a combined soft template-chemical activation method for CO2 capture.

Author

Shi, Jinsong, Xu, Jianguo, Cui, Hongmin, Yan, Nanfu, Zou, Jiyong, Liu, Yuewei, and You, Shengyong

Subjects

*CARBON sequestration, *DOPING agents (Chemistry), *CARBON dioxide, *CARBON, *OCHRATOXINS

Abstract

In the present study, N-doped hollow carbon nanospheres (NHCNs) were synthesized with a combined soft template-chemical activation method. Spherical hollow hydrochar was prepared from glucose with the assistance of dual soft templates, and was then chemically activated with KHCO 3 and urea to produce the NHCNs. Effects of urea addition and activation temperature on the NHCNs' physicochemical properties were revealed. The NHCNs were endowed with rich N-doping and developed porosity. The sample activated at 800 °C (NHCN2800) showed an impressive specific surface area of 3234 m2/g. The proposed method could also be extended to the synthesis of N, S co-doped hollow carbon nanospheres. We then investigated CO 2 adsorption performances of the NHCNs. At 25 °C and 1 bar, the best CO 2 uptake of the NHCNs was 4.36 mmol/g; at 20 bar, it increased to a record high level of 23.62 mmol/g. Correlations between textural characteristics/N-doping and CO 2 adsorption at 1/20 bar were analyzed and discussed. The current study indicated that the obtained NHCNs had great potential for applications in both pre- and post-combustion CO 2 capture. [Display omitted] • NHCNs are prepared with a combined soft template-chemical activation method. • The NHCNs demonstrate well-defined hollow spherical structure. • The NHCNs exhibit ultrahigh S BET up to 3234 m2/g. • At 25 °C and 20 bar, CO2 uptake of the NHCNs reaches 23.62 mmol/g. [ABSTRACT FROM AUTHOR]

Published

2023