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材料與能源學(xué)院 School of Materials and Energy
師資名錄
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洪曉東

2020年10月09日

洪曉東博士研究生,,教授

電子郵箱h[email protected]

研究方向:新能源材料,、碳基納米復(fù)合材料

科研項(xiàng)目

1. 粵佛基金項(xiàng)目

2. 佛山市高層次人才項(xiàng)目

論文成果

1. X. Hong, et al. Existing electrochemical activation mechanisms and related cathode materials for aqueous Zn ion batteries, Energy Conversion and Management, 299 (2024) 117906.

2. X. Hong, et al. Electrochemical activation induced the transition of NiCoOx nanoneedles for boosting supercapacitance, Journal of Energy Storage, 88 (2024) 111459.

3. W. Dong, et al. Combined Ce-doping and electrochemical activation strategies for boosting the supercapacitance of NiCoO, Ceramics International, 50 (2024) 25465-25472.

4. W. Dong, et al. Synergistic Pyridinic N/Pyrrolic N configurations in rGO/CNT composite sulfur hosts for high-performance lithium-sulfur batteries, Chemical Engineering Journal 488 (2024) 150872.

5. C. Deng, et al. Electrochemical activation of venus flytrap-like CoP and Co3O4 for boosting the supercapacitance performance, Journal of Alloys and Compounds, 988 (2024) 174324.

6. C. Deng, et al. Research advance of NiCoP-based materials for high-performance supercapacitors, Journal of Energy Storage, 58 (2023) 106379.

7. J. He, et al. Charge/discharge activation of CoS/NiMn-hydroxide composite for enhancing the electrochemical performance, Ceramics International, 49 (2023) 38585-38592.

8. C. Deng, et al. Cyclic voltammetry activation for boosting the supercapacitance of trimetallic Ni-Co-Mn phosphides, Applied Surface Science, 616 (2023) 156526.

9. X. Hong, et al. Composition and morphology transition of NF/MnP/NiCoP composite electrode induced by charge/discharge activation, Chemical Engineering Journal, 451 (2023) 139036.

10. C. Deng, et al. Electrochemical activation of NiCo-hydroxysulfides in high concentration KOH for constructing ultra-high capacitance electrodes, Electrochimica Acta, 463 (2023) 142815.

11. X. Hong, et al. Carbon nanosheets/MnO2/NiCo2O4 ternary composite for supercapacitor electrodes, Journal of Energy Storage, 53 (2022) 105086.

12. X. Wang, et al. Controllable synthesis of NiCo2O4, NiCo2O4/graphene composite and their electrochemical application in supercapacitors, Journal of Energy Storage, 55 (2022) 105837.

13. X. Hong, et al. A wheat flour derived hierarchical porous carbon/graphitic carbon nitride composite for high-performance lithium-sulfur batteries, Carbon, 170 (2020) 119-126.

14. X. Hong, et al. Recent advances in chemical adsorption and catalytic conversion materials for Li-S batteries, Journal of Energy Chemistry, 42 (2020) 144-168.

15. X. Hong, et al. Nonlithium Metal–Sulfur Batteries: Steps Toward a Leap, Advanced Materials, 31(2019) 1802822.

專利授權(quán)

1. 洪曉東等,一種多孔碳/氮化碳復(fù)合材料及其制備方法,,ZL202010485639.9

2. 洪曉東等,,一種多孔碳/碳納米管復(fù)合材料及其制備方法和應(yīng)用,ZL202010484784.5

3. 洪曉東等,,一種導(dǎo)電織物/聚苯胺復(fù)合材料電極及其制備方法,,ZL202010484803.4