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Kajornsak Faungnawakij. Effects of oxygen, nitrogen, and sulfur doped hard carbons derived from longan seed as anode material for sodium-ion batteries. (). King Mongkut's University of Technology North Bangkok. Central Library. : , 2025.
Effects of oxygen, nitrogen, and sulfur doped hard carbons derived from longan seed as anode material for sodium-ion batteries
Name: Sutida Tammanoi
Organization :
Suranaree University of Technology. School of Chemical Engineering
Name: Nikom Klomkliang
Organization :
Suranaree University of Technology. School of Chemical Engineering
Email :
nikom.klo@sut.ac.th
Name: Kajornsak Faungnawakij
Organization :
National Science and Technology Development Agency (NSTDA). National Nanotechnology Center (NANOTEC)
keyword:
Hard carbon
LCSH:
Sodium ion
LCSH:
Batteries
;
Anode
Abstract:
Sodium-ion batteries (SIBs) have emerged as a promising alternative for sustainable and
cost-effective energy storage. Hard carbon, especially from biomass, is a key candidate
for anode materials due to its favorable sodium storage capability. In this study, hard
carbon was synthesized from longan seed waste through pyrolysis at 9001200 °C
(HCx), and modified via nitrogen (N-HCx) and sulfur (S-HCx) doping using urea and
sulfur powder, respectively. The BJH method confirmed a mesoporous structure. Raman
spectroscopy revealed increased disorder with higher carbonization temperatures,
while TEM showed expanded interlayer spacing: 3.43.9 Å for HC1200, 3.44.0 Å
for N-HC1200, and 3.94.1 Å for S-HC1200. Electrochemical testing showed that
S-HC1200 delivered the highest reversible capacity (248.43 mAh/g) and good capacity
recovery, but exhibited lower early-cycle stability. N-HC1200 showed moderate
capacity (173.7 mAh/g), moderate initial stability, and the best capacity recovery. In
contrast, HC1200 exhibited the lowest initial capacity (196.5 mAh/g), the lowest
capacity recovery, but the most stable cycling behavior. Overall, N-HC1200 presented
the most balanced and robust electrochemical performance. This work underscores the
importance of precursor selection and highlights the potential of agricultural waste in the
development of efficient and sustainable anode materials for sodium-ion batteries.
King Mongkut's University of Technology North Bangkok. Central Library
Address:
BANGKOK
Email:
library@kmutnb.ac.th
Created:
2025
Modified:
2025-07-22
Issued:
2025-07-22
บทความ/Article
application/pdf
BibliograpyCitation :
In Thai Institute of Chemical Engineering and Applied Chemistry and Khon Kaen University. Faculty of Engineering. The 34th Thai Institute of Chemical Engineering and Applied Chemistry International Conference (TIChE 2025) (TIChE 2025 TIChE-AM-19). Bangkok : Thai Institute of Chemical Engineering And Applied Chemistry, 2025
eng
©copyrights King Mongkut's University of Technology North Bangkok
RightsAccess:
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0.029355 วินาที
Sutida Tammanoi
| Title | Contributor | Type |
|---|---|---|
| Effects of oxygen, nitrogen, and sulfur doped hard carbons derived from longan seed as anode material for sodium-ion batteries
มหาวิทยาลัยเทคโนโลยีพระจอมเกล้าพระนครเหนือ Sutida Tammanoi;Nikom Klomkliang;Kajornsak Faungnawakij | บทความ/Article |
Nikom Klomkliang
| Title | Contributor | Type |
|---|---|---|
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| Effects of oxygen, nitrogen, and sulfur doped hard carbons derived from longan seed as anode material for sodium-ion batteries
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| Effects of oxygen, nitrogen, and sulfur doped hard carbons derived from longan seed as anode material for sodium-ion batteries
มหาวิทยาลัยเทคโนโลยีพระจอมเกล้าพระนครเหนือ Sutida Tammanoi;Nikom Klomkliang;Kajornsak Faungnawakij | บทความ/Article |