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@article{ART003342641},
author={John Simon Sajan and Lee Sora and May Zaw Win and Yi, Kwang Bok and Kim Kyoungsoo and Lee Sung Ho},
title={Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure},
journal={Carbon Letters},
issn={1976-4251},
year={2026},
volume={36},
number={2},
pages={767-780},
doi={10.1007/s42823-025-01018-x}

TY - JOUR
AU - John Simon Sajan
AU - Lee Sora
AU - May Zaw Win
AU - Yi, Kwang Bok
AU - Kim Kyoungsoo
AU - Lee Sung Ho
TI - Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure
JO - Carbon Letters
PY - 2026
VL - 36
IS - 2
PB - Korean Carbon Society
SP - 767
EP - 780
SN - 1976-4251
AB - Activated carbon fibers (ACFs) are highly efficient adsorbents for liquid and gaseous phases due to their tunable porosity, high surface area, and rapid adsorption kinetics. While polyacrylonitrile (PAN)-based ACFs are widely studied, the fundamental mechanisms governing nitrogen transformation and porosity evolution during chemical activation remain poorly understood. This study examines the structural, mechanical, chemical, and textural modifications in nitrogen-rich PAN-derived CFs during KOH activation, utilizing nitrogen contents and functionalities as indicators of the activation process. ACFs and crushed ACFs were prepared from pure PAN fibers by stabilization, carbonization, and KOH activation with different ratios at 600–900 °C. Aggressive activation conditions drastically reduced the nitrogen content and selectively decomposed specific nitrogen functionalities: pyridinic N diminished sharply, graphitic N remained comparatively stable, and pyrrolic N and pyridone species collapsed at higher temperatures. Structural and textural analyses revealed a correlation between increased disorder and lattice change, leading to the formation of a more uniform porous network in the crushed samples. However, this enhanced porosity came at the cost of mechanical integrity, as shown by reduced tensile strength and modulus. This study clarifies the relationship between activation parameters and the final properties of PAN-ACFs, providing a foundation for the optimized synthesis of these materials.
KW - Polyacrylonitrile Carbon Fiber KOH Activation Nitrogen Functionality XPS
DO - 10.1007/s42823-025-01018-x
ER -

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo and Lee Sung Ho. (2026). Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure. Carbon Letters, 36(2), 767-780.

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo and Lee Sung Ho. 2026, "Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure", Carbon Letters, vol.36, no.2 pp.767-780. Available from: doi:10.1007/s42823-025-01018-x

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo, Lee Sung Ho "Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure" Carbon Letters 36.2 pp.767-780 (2026) : 767.

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo, Lee Sung Ho. Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure. 2026; 36(2), 767-780. Available from: doi:10.1007/s42823-025-01018-x

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo and Lee Sung Ho. "Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure" Carbon Letters 36, no.2 (2026) : 767-780.doi: 10.1007/s42823-025-01018-x

John Simon Sajan; Lee Sora; May Zaw Win; Yi, Kwang Bok; Kim Kyoungsoo; Lee Sung Ho. Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure. Carbon Letters, 36(2), 767-780. doi: 10.1007/s42823-025-01018-x

John Simon Sajan; Lee Sora; May Zaw Win; Yi, Kwang Bok; Kim Kyoungsoo; Lee Sung Ho. Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure. Carbon Letters. 2026; 36(2) 767-780. doi: 10.1007/s42823-025-01018-x

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo, Lee Sung Ho. Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure. 2026; 36(2), 767-780. Available from: doi:10.1007/s42823-025-01018-x

John Simon Sajan, Lee Sora, May Zaw Win, Yi, Kwang Bok, Kim Kyoungsoo and Lee Sung Ho. "Evolution of nitrogen functionalities in PAN-based carbon fiber during KOH activation to understand the formation of pore structure" Carbon Letters 36, no.2 (2026) : 767-780.doi: 10.1007/s42823-025-01018-x