(近5年)
[1] Y. Wang, L. Liu, Y. Liu, N. Li, Z. Hu, S. Chen, Double-filler composite sulfonated poly(aryl ether ketone) membranes with graphite carbon nitride and graphene oxide as polyelectrolyte for fuel cells, Polymer, 238 (2022) 124426.
[2] Y. Lu, L. Liu, N. Li, Z. Hu, S. Chen, Homologous flexible multi-cationic cross-linkers modified poly(aryl ether sulfone) anion exchange membranes for fuel cell applications, Int J Hydrogen Energ, 47 (2022) 17329-17340.
[3] L. Liu, Y. Wang, S. Liu, N. Li, Z. Hu, S. Chen, Novel bifunctional fillers (ATP/P–CNOs) for sulfonated poly(aryl ether sulfone) matrix for improved power output and durability of H2/O2 fuel cell at low humidity, Journal of Membrane Science, (2022) 120774.
[4] L. Liu, Y. Lu, C. Ning, N. Li, S. Chen, Z. Hu, Comb-shaped sulfonated poly(aryl ether sulfone) proton exchange membrane for fuel cell applications, Int J Hydrogen Energ, 47 (2022) 16249-16261.
[5] J. Zhang, S. Chen, J. Li, W. Han, X. Sun, N. Li, Z. Hu, L. Wang, Sulfonated carbon nano-onion incorporated polyethersulfone nanocomposite ultrafiltration membranes with improved permeability and antifouling property, Separation and Purification Technology, 256 (2021) 117825.
[6] H. Shi, P. Zhu, S. Wu, N. Li, Z. Hu, S. Chen, Catalytic degradation of 1,2-dichloroethane on Co_xTi_(1-x) composite oxides, Chemical Industry and Engineering Progress, 40 (2021) 4253-4258.
[7] Y. Pu, C. Ning, Y. Lu, L. Liu, N. Li, Z. Hu, S. Chen, Preparation and Characterizations of Cross-linked Sulfonated Poly(ether ether ketone)/Partially Fluorinated Sulfonated Poly(aryl ether sulfone)Blend Membranes, Chemical Journal of Chinese Universities-Chinese, 42 (2021) 2002-2007.
[8] Y. Lu, L. Liu, Y. Pu, Y. Liu, N. Li, Z. Hu, S. Chen, Towards performance improved anion exchange membrane: Cross-linking with multi-cations oligomer modified graphene oxide, Int J Hydrogen Energ, 46 (2021) 23855-23867.
[9] L. Liu, Y. Pu, Y. Lu, N. Li, Z. Hu, S. Chen, Superacid sulfated SnO2 doped with CeO2: A novel inorganic filler to simultaneously enhance conductivity and stabilities of proton exchange membrane, Journal of Membrane Science, 621 (2021).
[10] L. Liu, Y. Lu, Y. Pu, N. Li, Z. Hu, S. Chen, Highly sulfonated carbon nano-onions as an excellent nanofiller for the fabrication of composite proton exchange membranes with enhanced water retention and durability, Journal of Membrane Science, 640 (2021).
[11] A. Haragirimana, N. Li, Z. Hu, S. Chen, A facile, effective thermal crosslinking to balance stability and proton conduction for proton exchange membranes based on blend sulfonated poly(ether ether ketone)/sulfonated poly(arylene ether sulfone), Int J Hydrogen Energ, 46 (2021) 15866-15877.
[12] M. Zhu, N. Li, Y. Lu, Z. Hu, S. Chen, R.J. Zeng, The performance and microbial communities of an anaerobic membrane bioreactor for treating fluctuating 2-chlorophenol wastewater, Bioresource Technology, 317 (2020).
[13] Y. Lu, X. Pan, N. Li, Z. Hu, S. Chen, Improved performance of quaternized poly(arylene ether ketone)s/graphitic carbon nitride nanosheets composite anion exchange membrane for fuel cell applications, Applied Surface Science, 503 (2020) 144071.
[14] Y. Lu, Y. Liu, N. Li, Z. Hu, S. Chen, Sulfonated graphitic carbon nitride nanosheets as proton conductor for constructing long-range ionic channels proton exchange membrane, Journal of Membrane Science, 601 (2020) 117908.
[15] Y. Liu, Y. Lu, A. Haragirimana, I.P. Buregeya, N. Li, Z. Hu, S. Chen, Immobilized phosphotungstic acid for the construction of proton exchange nanocomposite membranes with excellent stability and fuel cell performance, Int J Hydrogen Energ, 45 (2020) 17782-17794.
[16] P.B. Ingabire, X. Pan, A. Haragirimana, N. Li, Z. Hu, S. Chen, Improved hydroxide conductivity and performance of nanocomposite membrane derived on quaternized polymers incorporated by titanium dioxide modified graphitic carbon nitride for fuel cells, Renewable Energy, 152 (2020) 590-600.
[17] P.B. Ingabire, A. Haragirimana, Y. Liu, N. Li, Z. Hu, S. Chen, Titanium oxide/graphitic carbon nitride nanocomposites as fillers for enhancing the performance of SPAES membranes for fuel cells, Journal of Industrial and Engineering Chemistry, 91 (2020) 213-222.
[18] A. Haragirimana, N. Li, P.B. Ingabire, Z. Hu, S. Chen, Multi-component organic/inorganic blend proton exchange membranes based on sulfonated poly(arylene ether sulfone)s for fuel cells, Polymer, 210 (2020) 123015.
[19] A. Haragirimana, P.B. Ingabire, Y. Liu, N. Li, Z. Hu, S. Chen, An effective strategy to enhance the performance of the proton exchange membranes based on sulfonated poly(ether ether ketone)s, Int J Hydrogen Energ, 45 (2020) 10017-10029.
[20] 朱雨昕, H. Alphonse, 陆瑶, B.I. Providence, 宁聪, 李娜, 胡朝霞, 陈守文, 填充型具有微孔结构的磺化聚芳醚砜/聚醚砜复合质子交换膜的制备及性能 高等学校化学学报, 40 (2019) 1051-1057.
[21] X. Zhou, Y. Xu, X. Mei, N. Du, R. Jv, Z. Hu, S. Chen, Polyaniline/β-MnO2 nanocomposites as cathode electrocatalyst for oxygen reduction reaction in microbial fuel cells, Chemosphere, 296 (2019) 214-223.
[22] Y. Lu, Z. Hu, Y. Liu, I. Buregeya, X. Pan, N. Li, S. Chen, Composite Anion Exchange Membranes from Quaternized Poly(arylene ether ketone) and Quaternized Titanate Nanotubes with Enhanced Ion Conductivity, Fuel Cells, 19 (2019) 663-674.
[23] P.B. Ingabire, X. Pan, A. Haragirimana, N. Li, Z. Hu, S. Chen, Enhanced conduction capability of nanocomposite membrane of quaternized poly (arylene ether sulfone)s covalently bonded with graphitic carbon nitride nanosheets for fuel cells, Reactive & Functional Polymers, 144 (2019).
[24] P.B. Ingabire, X. Pan, A. Haragirimana, N. Li, Z. Hu, S. Chen, Enhanced conduction capability of nanocomposite membrane of quaternized poly (arylene ether sulfone)s covalently bonded with graphitic carbon nitride nanosheets for fuel cells, Reactive and Functional Polymers, 144 (2019) 104260.
[25] Z. Hu, X. Zhou, Y. Lu, R. Jv, Y. Liu, N. Li, S. Chen, CoMn2O4 doped reduced graphene oxide as an effective cathodic electrocatalyst for ORR in microbial fuel cells, Electrochimica Acta, 296 (2019) 214-223.
[26] A. Haragirimana, P.B. Ingabire, Y. Zhu, Y. Lu, N. Li, Z. Hu, S. Chen, Four-polymer blend proton exchange membranes derived from sulfonated poly(aryl ether sulfone)s with various sulfonation degrees for application in fuel cells, Journal of Membrane Science, 583 (2019) 209-219.
[27] J. Zhang, Y.n. Xu, S. Chen, J. Li, W. Han, X. Sun, D. Wu, Z. Hu, L. Wang, Enhanced antifouling and antibacterial properties of poly (ether sulfone) membrane modified through blending with sulfonated poly (aryl ether sulfone) and copper nanoparticles, Applied Surface Science, 434 (2018) 806-815.
[28] P. Mao, J. Jiang, Y. Pan, C. Duanmu, S. Chen, Y. Yang, S. Zhang, Y. Chen, Enhanced Uptake of Iodide from Solutions by Hollow Cu-Based Adsorbents, Materials, 11 (2018).
[29] Y. Lu, X. Zhang, X. Yan, Z. Hu, S. Chen, The Structure–property–performance relationship of disulfonated naphthyl pendants bearing poly(aryl ether)s for polymer electrolyte membrane applications, Journal of Membrane Science, 555 (2018) 45–55.
[30] Q. Gao, X. Pan, P.I. Buregeya, Y. Lu, X. Zhang, X. Yan, Z. Hu, S. Chen, Stable anion exchange membranes derived from fluorinated poly (aryl ether)s with quaternized fluorene units for fuel cell applications, Journal of Applied Polymer Science, 135 (2018) 46301-46310.