Akram Alabadi scite author profile

The preparation of nitrogen-doped activated carbon (NACs) has received significant attention because of their applications in CO2 capture and sequestration (CCS) owing to abundant nitrogen atoms on their surface and controllable pore structures by carefully controlled carbonization. We report high-surface-area porous N-doped activated carbons (NAC) by using soft-template-assisted self-assembly followed by thermal decomposition and KOH activation. The activation process was carried out under different temperature conditions (600–800 °C) using polyimine as precursor. The NAC-800 was found to have a high specific surface area (1900 m2 g−1), a desirable micropore size below 1 nm and, more importantly, a large micropore volume (0.98 cm3 g−1). NAC-800 also exhibits a significant capacity of CO2 capture i.e., over 6. 25 and 4.87 mmol g−1 at 273 K and 298 K respectively at 1.13 bar, which is one of among the highest values reported for porous carbons so far. Moreover, NAC also shows an excellent separation selectivity for CO2 over N2.

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Graphene oxide-polythiophene derivative hybrid nanosheet for enhancing performance of supercapacitor

Alabadi

Razzaque

Dong

et al. 2016

Journal of Power Sources

114

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Square CdS Micro/Nanosheets as Efficient Photo/Piezo-bi-Catalyst for Hydrogen Production

Abbood

Alabadi²,

Al‐Hawash

et al. 2020

Catal Lett

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Akram Alabadi

Highly porous activated carbon materials from carbonized biomass with high CO2 capturing capacity

Nitrogen-doped activated carbons derived from a co-polymer for high supercapacitor performance

Imine-Linked Polymer Based Nitrogen-Doped Porous Activated Carbon for Efficient and Selective CO2 Capture

Graphene oxide-polythiophene derivative hybrid nanosheet for enhancing performance of supercapacitor

Square CdS Micro/Nanosheets as Efficient Photo/Piezo-bi-Catalyst for Hydrogen Production

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