研究领域
面向能源与环境领域的新型纳米功能材料设计、合成与应用研究
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[1] Zhou J, Li Z, Xing W*, Zhu T, Shen H, Zhuo S*. N-doped microporous carbons derived from direct carbonization of K+ exchanged meta-aminophenol-formaldehyde resin for superior CO2 sorption. Chemical communications. 2015. Accepted Manuscript. DOI: 10.1039/C4CC10364E
[2] Zhou J, Zhu T, Xing W, Li Z, Shen H, Zhuo S*. Activated polyaniline-based carbon nanoparticles for high performance supercapacitors. Electrochimica Acta. doi:10.1016/j.electacta.2015.02.032.
[3] Zhou J, Zhang Z, Xing W, Yu J, Han G, Si W, Zhuo S*. Nitrogen-doped hierarchical porous carbon materials prepared from meta-aminophenol formaldehyde resin for supercapacitor with high rate performance. Electrochimica Acta. 2015;153:68-75.
[4] Wang G*, Zhang J, Kuang S, Zhou J, Xing W, Zhuo S. Nitrogen-doped hierarchical porous carbon as an efficient electrode material for supercapacitors. Electrochimica Acta. 2015;153:273-9.
[5] Zhu T, Zhou J*, Li Z, Li S, Si W, Zhuo S*. Hierarchical porous and N-doped carbon nanotubes derived from polyaniline for electrode materials in supercapacitors. Journal of Materials Chemistry A. 2014;2(31):12545-51.
[6] Xing W, Liu C, Zhou Z, Zhou J, Wang G, Zhuo S*, et al. Oxygen-containing functional group-facilitated CO2 capture by carbide-derived carbons. Nanoscale research letters. 2014;9(1):1-8.
[7] Xing L-B, Hou S-F, Zhou J, Li S, Zhu T, Li Z, Zhuo S*. UV-Assisted Photoreduction of Graphene Oxide into Hydrogels: High-Rate Capacitive Performance in Supercapacitor. The Journal of Physical Chemistry C. 2014, 118(45): 25924-25930.
[8] Wu X, Xing W*, Florek J, Zhou J, Wang G, Zhuo S*, et al. On the origin of the high capacitance of carbon derived from seaweed with an apparently low surface area. Journal of Materials Chemistry A. 2014;2(44):18998-9004.
[9] Li XJ, Xing W*, Zhou J, Wang GQ, Zhuo SP, Yan ZF*, et al. Excellent Capacitive Performance of a Three‐Dimensional Hierarchical Porous Graphene/Carbon Composite with a Superhigh Surface Area. Chemistry-A European Journal. 2014;20(41):13314-20.
[10] Guo F, Xing W*, Zhou J, Zhao L, Zeng J, Liu Z, et al. Studies in the capacitance properties of diaminoalkane-intercalated graphene. Electrochimica Acta. 2014;148:220-7.
[11] Zhou J, Li W, Zhang Z, Wu X, Xing W, Zhuo S*. Effect of cation nature of zeolite on carbon replicas and their electrochemical capacitance. Electrochimica Acta. 2013;89:763-70.
[12] Zhang Z#, Zhou J#, Xing W*, Xue Q, Yan Z, Zhuo S*, et al. Critical role of small micropores in high CO 2 uptake. Physical Chemistry Chemical Physics. 2013;15(7):2523-9.
[13] Si W, Zhou J*, Zhang S, Li S, Xing W, Zhuo S*. Tunable N-doped or dual N, S-doped activated hydrothermal carbons derived from human hair and glucose for supercapacitor applications. Electrochimica Acta. 2013;107:397-405.
[14] Si W, Wu X, Zhou J, Guo F, Zhuo S, Cui H, et al. Reduced graphene oxide aerogel with high-rate supercapacitive performance in aqueous electrolytes. Nanoscale research letters. 2013;8(1):247.
[15] Zhou J, Li W, Zhang Z, Xing W, Zhuo S*. Carbon dioxide adsorption performance of N-doped zeolite Y templated carbons. RSC Advances. 2012;2(1):161-7.
[16] Xing W*, Liu C, Zhou Z, Zhang L, Zhou J, Zhuo S*, et al. Superior CO2 uptake of N-doped activated carbon through hydrogen-bonding interaction. Energy & Environmental Science. 2012;5(6):7323-7.
[17] Wu X#, Zhou J#, Xing W*, Wang G, Cui H, Zhuo S*, et al. High-rate capacitive performance of graphene aerogel with a superhigh C/O molar ratio. Journal of Materials Chemistry. 2012;22(43):23186-93.
[18] Wu X, Xing W, Zhang L, Zhuo S*, Zhou J, Wang G, et al. Nickel nanoparticles prepared by hydrazine hydrate reduction and their application in supercapacitor. Powder Technology. 2012;224:162-7.
[19] Zhou J, Xing W, Zhuo S*, Zhao Y. Capacitive performance of ordered mesoporous carbons with tunable porous texture in ionic liquid electrolytes. Solid State Sciences. 2011;13(11):2000-6.
[20] Xing W, Qiao S*, Wu X, Gao X, Zhou J, Zhuo S*, et al. Exaggerated capacitance using electrochemically active nickel foam as current collector in electrochemical measurement. Journal of Power Sources. 2011;196(8):4123-7.