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侯宏英

更新日期:2018-03-08

 

 

 

太阳成集团tyc234cc官网研究生导师简介

 

 

 

 

侯宏英

/博导

出生年月

最高学位

博士

电子邮箱

hongyinghou@kust.edu.cn

395093182@qq.com

研究方向

新能源如燃料电池、锂离子电池、钠离子电池及超级电容器等电极材料,电解质膜材料等。

教育背景

20102-20123月,在欧盟第七框架LOLIPEM项目经费资助下,到法国艾克斯-马赛大学国家科学研究中心材料化学实验室从事博士后研究工作;

20059-20097月,中国科学院大连化学物理研究所洁净能源国家实验室攻读博士;

                                               19999-20027月,郑州大学,攻读硕士;

                                               19929-19967月,郑州大学,攻读学士。

科研项目

研究项目(Research Projects)

1)国家自然科学基金“基于贻贝仿生化学改善固态锂离子电池电芯固-固界面兼容性及调控机制(52263010)”20231-202612月,40万元,主持,在研

2)校企联合,关于新型储能电池技术服务,20235-20245月,22万元,主持,在研

3)校企联合,有机磷系阻燃剂的无氯合成方法探索性研究,20234-20244月,19万元,主持,在研

4)中国科学院燃料电池及复合电能源重点实验室开放课题,20209-20229月,10万,主持,在研

5)云南省优质研究生课程建设项目,20201-202212月,8万元,主持,已结题

62016年第十九批云南省中青年学术技术带头人,20171-202212月,12万元,主持,已结题

7)国家自然科学基金三维微型锂离子电池膜电极电化学集成及反应机理研究(5136301120141-201712月,50万元,主持,已结题

8)教育部第46批留学归国科研启动基金,磺化聚苯酚的电化学制备与表征, 20137-20167月, 5万元,主持,已结题

9)太阳成集团tyc234cc古天乐先进电池膜电极材料学科方向团队,20143-20193月,30万元,主持,已结题

科研成果

迄今为止在国内外重要学术期刊如ChemsusChem, Journal of Power   sources, Journal of Energy Storage, Journal of Physical Chemistry C, Journal   of Membrane Science, Electrochimic Acta, Journal of Hazardous Materials,   Waste Management, Science of the Total Environment, Ceramics International, Sustainable   Materials and Technologies, Materials Letters, International Journal of   Hydrogen Energy等上共发表期刊学术论文150多篇、申报专利26项,其中英文SCIEI收录110多篇,授权专利17项,参编石墨烯专著1部。多次为国际重要杂志审稿。受邀成为国家基金委同行函评专家,国家留学基金委评审专家及教育部学位与研究生教育发展中心学位评审专家,云南省科技厅奖励委员会评委,中国化工学会会员。2012年云南省高层次引进人才,2013年破格教授,2014年被遴选为博士生导师,2016年云南省中青年学术带头人,所指导的硕、博士研究生已经毕业17人,在读20人,多次获得了国家奖学金、省政府奖学金,省优秀硕士论文和优秀毕业研究生等荣誉称号。

代表性论文:

1. Hongying Hou*, Jinxu   Qiu, Bao Li, et al. Trace doping realizing superior electrochemical   performance in P2-type Na0.50Li0.08Mn0.60Co0.16Ni0.16O2   cathode for sodium-ion batteries. Chinese Chemical Letters, 2023, 34(12):   108810, https://doi.org/10.1016/j.cclet.2023.108810.

2. Hongying Hou*,   Baoxiang Huang, Xiaohua Yu, et al. Compatible   composite electrolyte membrane Li7La3Zr2O12/SB-PVDF   for solid-state lithium ion battery. Journal of Energy Storage, 2023, 68:   107680, https://doi.org/10.1016/j.est.2023.107680.

3. Jian Lan, Hongying Hou*, Xiaohua   Yu, et al. Building the homogeneous ionic interfaces and channels for high   compatible composite PVDF/SiO2 solid electrolyte by grafting   sulfonate betaine. Surfaces and Interfaces, 2023, 39: 102978, https://doi.org/10.1016/j.surfin.2023.102978.

4. Hao Li, Zhilong He, Hongying Hou*, et   al. Optimization prelithiation current of silicon-oxygen anode for high   specific energy li-ion cells. Journal of Energy Storage, 2023, 64: 107149, https://doi.org/10.1016/j.est.2023.107149.

5. Muhammad Shahzad, Rawaid Ali, Sikander Azam,   Hongying Hou*, et   al. First-principles study of color-tunable properties in Eu-doped Mg2SnO4   phosphors. Materials Letters, 2023, 349: 134728, https://doi.org/10.1016/j.matlet.2023.134728.

6. Meng, Kun, Zhao, Xiaoyang, Hongying Hou*,   et al. Understanding the desalination mechanism of a two-dimensional   graphene-like membrane using data-driven design. Diamond and Related Materials,   2023 137: 110085, https://doi.org/10.1016/j.diamond.2023.110085.

7. Baoxiang Huang, Hongying Hou*,   Xiaohua Yu, et al. High compatible double surface-modification SB-PVDF/SB-Li7La3Zr2O12   composite solid electrolytes. Journal of Electroanalytical Chemistry, 2023,   940: 117512, https://doi.org/10.1016/j.jelechem.2023.117512.

8. Kun Meng, Xiuhan Li, Hongying Hou*, et   al. Computational simulation-driven discovery of novel zeolite-like carbon   materials as seawater desalination membranes. Diamond and Related Materials,   2023, 25(25): 16908-16920, https://doi.org/10.1039/d3cp00787a.

9. Muhammad Zia Ullah Shah, Muhammad Sajjad, Hongying   Hou*, et al. Wet-chemical   assisted synthesis of MnSe/ZnO nanostructures as low-resistance robust novel   cathode material for advanced hybrid supercapacitors. New Journal of Chemistry,   2023, 47(17): 8002-8012, https://doi.org/10.1039/d2nj05682h.

10. Kun Meng, Yutao Niu, Hongying Hou*, et   al. Data-driven design of high-performance graphene-based seawater desalination   membranes. ACS Applied Nano Materials, 2023, 6(7): 5889-5900, https://doi.org/10.1021/acsanm.3c00256.

11. Hongying Hou*,   Baoxiang Huang, Xiaohua Yu, et al. Sulfonate betaine   modified PVDF/SiO2 composite electrolyte for solid state lithium   ion battery. Journal of Applied Polymer Science, 2023, 140(9): e53573, https://doi.org/10.1002/app.53573.

12. Muhammad Zia Ullah Shah, Hongying Hou*,   Muhammad Sajjad, et al. Iron-selenide-based   titanium dioxide nanocomposites as a novel electrode material for asymmetric   supercapacitors operating at 2.3 V. Nanoscale Advances, 2023, 5(5):   1465-1477, https://doi.org/10.1039/d2na00842d.

13. Hongying Hou*, Junkai Li, Jian Lan, et al. Efficient extraction of Mn2+   ions from the waste produced in the hummers method for application in Li-Ion batteries.   Journal of Electrochemical Energy Conversion and Storage, 2023, 20(1): 011012, https://doi.org/10.1115/1.4054780.

14. Kun Meng, Yutao Niu, Hongying Hou*, et   al. Electronic-level   deciphering of the desalination mechanism of high-performance graphenylene   membranes. Journal of Membrane Science, 2022, 664: 121068, https://doi.org/10.1016/j.memsci.2022.121068.

15. Muhammad Zia Ullah Shah,   Muhammad Sajjad, Hongying Hou*, et   al. Copper sulfide nanoparticles on titanium dioxide (TiO2)   nanoflakes: A new hybrid asymmetrical faradaic supercapacitors with high   energy density and superior lifespan. Journal of Energy   Storage, 2022, https://doi.org/10.1016/j.est.2022.105651.

16. Muhammad Zia Ullah Shah, Muhammad Sajjad, Hongying Hou*, et al. A new CuO/TiO2 nanocomposite: An emerging   and high energy efficient electrode material for aqueous asymmetric   supercapacitors. Journal of Energy Storage, 2022, 55: 105492, https://doi.org/10.1016/j.est.2022.105492.

17. Jian Lan, Hongying Hou*, Xianxi   Liu, Xiaohua Yu, Ju Rong, Fangshu Chen. Hierarchical dumbbell-like Fe3O4/C   electrode for the supercapacitor, Materiasl Letters (2022) 331:133302

18. Muhammad Zia Ullah Shah,   Muhammad Sajjad, Hongying Hou*, et   al. Hydrothermal synthesis of   ZnO@ZnS heterostructure on Ni foam: A binder free electrode for high power   and stable hybrid supercapacitors. Materials Letters, 2022, https://doi.org/10.1016/j.matlet.2022.132910.

19. Jian Lan, Hongying Hou*, Kun Meng, et al. The recovery of expired ferrous gluconate and spent Li foils into high performance straw-bundle-like α-LiFeO2 /C cathode. Electrochemical Acta, 2021,   390: 138827.

20. Jian Lan, Hongying Hou*, Baoxiang Huang, Hao Li, Junkai Li. The positive role of vitamin C in spindle‑like LiFePO4/C   cathode derived from two wastes, Ionics (2022) 28: 1583-1593.

21. Muhammad Zia Ullah Shah, Muhammad Sufyan Javed, Hongying Hou*, et al. A novel TiO2/CuSe   based nanocomposite for high-voltage asymmetric supercapacitors. Journal of   Science. Advanced Materials and Devices, 2022, 7: 100418,

22. Hongying Hou*,   Junkai Li, Jian Lan, et al. Porous walnut‑like Mn2O3   anode derived from the waste graphene production effluent. Journal   of Porous Materials, 2022, https://doi.org/10.1007/s10934-022-01216-2.

23. Hongying Hou*, Jian Lan,   Lei Wang, et al. The Effect of the calcination time on dumbbell‑Like   ZnFe2O4/C anode derived from expired waste zinc/ferrous   gluconates. Waste and Biomass Valorization, 2021, 12:5099-5108.

24. Dongmei Dai, Jinxu Qiu, Hongying Hou, et al. P2-layered Na0.5Li0.07Mn0.61Co0.16Ni0.16O2   cathode boosted Na-storage properties via rational subgroup element doping. Journal of   Materials Chemistry A, 2021, 9: 18272.

25. Hongying   Hou*, Jian Lan, Yuan Yao,   et al. The recycling of expired aminocaproic acid injection for   mint-leaf-like zinc aminocaproate. Surface Innovations, 2021, 9(5): 317-323.

26. Jinxu Qiu, Boran Chen, Hongying Hou, et al. Improving Na+   diusion and performance   of P2-Type layered Na0.6Li0.07Mn0.66Co0.17Ni0.17O2   by expanding the interplanar spacing. ACS Applied Materials Interfaces, 2020, 12: 48669-48676.

27. Yuan Yao, Hongying Hou*,   Xianxi Liu, et al. Li-storage performances of copper L-phenylalanine complex nanosheets   anode derived from waste copper etchant. Waste and Biomass Valorization,   2020, 11(12): 6967-6979.

28. Hongying Hou*, Lei Wang,   Kun Meng, et al. The reutilization of expired waste zinc gluconate for ZnO/C   anode in lithium-ion battery. Surface Innovations, 2020, 8(1-2):55-64.

29. Xianxi Liu, Chengyi Yu, Hongying   Hou*, et al. The   recycling of the expired donkey-hide gelatin pulp for N/S co-doped hollow   carbon nano-spheres anode in sodium ion battery. Environmental Science and Pollution Research,   2020, 27: 13467-13476.

30. Hongying. Hou*, Chengyi Yu,   Xianxi Liu, et al. N-doped carbon microspheres anode from expired vitamin B1   injections for lithium ion battery. Journal of Material Cycles and Waste   Management, 2019, 21(5):1123-1131.

31. Hongying Hou*, Zhipeng   Dai, Xianxi Liu, et al. Direct and indirect recycling strategies of expired   oxytetracycline for the anode material in lithium ion batteries, Frontiers in Materials, 2019, 6:1-10.

32. Xianxi   Liu, Dongdong Li, Hongying Hou*,   et al. Mg2+-doped LiFePO4/C cathode from expired   lithium carbonate and ferrous sulfate tablets. Surface Innovations, 2019,7:290-298.

33. Hongying Hou*, Dongdong Li, Xianxi Liu,   et al, Recovery of waste Li foils from spent experimental Li-anode coin cells   for LiFePO4/C cathode. Sustainable Materials and Technologies, 2018,   17:e00064.

34. Hongying Hou*, Zhipeng   Dai, Xianxi Liu, et al. Reutilization of the expired tetracycline for lithium   ion battery anode. Science of the Total Environment, 2018,630:495-501.  

35. Dongdong Li, Hongying Hou*, Xianxi Liu, et al. The synchronous   reutilization of the expired ferrous sulfate granules and waste Li foils for   LiFePO4/C cathode. International Journal of Hydrogen Energy, 2018, 43:22419   -22426.

36. Chengyi Yu, Hongying Hou*, Xianxi Liu, et al. Old-loofah-derived   hard carbon for long cyclicity anode in sodium ion battery. International Journal of Hydrogen Energy, 2018,43:   3253-3260.

37. Liao Qishu, Hou Hongying*,   Liu Xianxi, et al. L-lactic   acid and sodium p-toluenesulfonate co-doped polypyrrole for high performance   cathode in sodium ion battery. Journal   of Physics Chemistry of Solids, 2018,115:233-237.

38. Hongying Hou*, Chengyi Yu,   Xianxi Liu, et al. Waste-loofah-derived carbon micro/nanoparticles for lithium ion battery   anode. Surface Innovations, 2018, 6: 159-166.

39. Song Liu, Hongying Hou*,   Xianxi Liu, et al. Recycled   hierarchical tripod-like CuCl from Cu-PCB waste etchant for lithium ion   battery anode. Journal of   Hazardous Materials, 324(2017) 357-364.

40. Qishu Liao, Hongying Hou*,   Jixiang Duan, et al. Composite sodium p-toluenesulfonate/ polypyrrole/TiO2   nanotubes/Ti anode for sodium ion battery. International Journal of Hydrogen Energy, 42(2017)12414-12419.

41. Hongying Hou*, Yuan Yao,   Song Liu, et al. Recycled   tetrahedron-like CuCl from waste Cu scraps for lithium ion battery anode. Waste Management, 2017, 65:147-152.  

42. Jixiang Duan, Hongying   Hou*, Xianxi Liu, et al. High performance   PPO/Ti3+/TiO2NT membrane/electrode for lithium ion   battery. Ceramics International, 2016,   42:16611-16618.

43. Ruijin Meng, Hongying Hou*,   Xianxi Liu, et al. High performance binder-free   quaternary composite CuO/Cu/TiO2NT/Ti anode for lithium ion   battery. Ceramics International,   2016, 42(5): 6039-6045.

44. Song   Liu, Hongying Hou*, Xianxi Liu, et al.   Binder-free integration of cubic insoluble CuCl nanoparticles with homologous   Cu substrate for lithium ion battery. RSC Advances, 2016, 6: 3742-3747.

45. Song   Liu, Hongying Hou*, Xianxi Liu, et al. High-performance   hierarchical homologous scale-like CuCl/Cu foam anode for lithium ion   battery. Ceramics International, 2016, 42(7): 8310-8315.

46. Ruijin Meng, Hongying Hou*, Xianxi Liu, et al.   Reassessment of the roles of Ag in TiO2 nanotubes anode material   for lithium-ion battery. Ceramics International, 2015, 41(8): 9988-9994.

47. Hongying Hou,   Maria Luisa Di Vona, Philippe Knauth, Building bridges: crosslinking of sulfonated   aromatic polymers – a review. Journal of Membrane Science, 2012, 423-423:   113-127.

48. Hongying Hou,   Florence Vacandio, Maria Luisa Di Vona, Philippe Knauth, Sulfonated   polyphenyl ether by electropolymerization. Electrochimica Acta, 2012, 81:   58-63.

49. Hongying Hou,   Brnuella Maranesi, Jean-Francois et al. Crosslinked SPEEK membranes:   Mechanical, thermal and hydrothermal properties. Journal of Materials Research, 2012, 27:1950-1955.

50. Philippe Knauth, Hongying Hou, E. Bloch, E. Sgreccia, M. L. Di Vona, Thermogravimetric analysis of SPEEK membrane: thermal stability, degree of sulfonation and cross-linking reaction. Journal of Analytical and Applied Pyrolysis, 2011,92: 361-365.

51. Hongying Hou,   Maria Luisa Di Vona, Philippe Knauth, Durability of sulfonated aromatic polymers   for PEM fuel cells. ChemSusChem,   2011, 4:1526-1536.

52. Hongying Hou, Suli   Wang, Qian Jiang, et al. Durability study of PBI/KOH membrane for air breath   alkaline direct ethanol fuel cell. Journal of Power Sources, 2011,196 : 3244-3248.

53. Qian Jiang, Luhua Jiang, Hongying   Hou, et al. Promoting effect of Ni in PtNi bimetallic electrocatalysts   for the methanol oxidation reaction in alkaline media: experimental and density   functional theory studies. Journal   of Physical Chemistry C2010,   114:19714-19722.

54. Hongying Hou, Gongquan Sun, Ronghuan He, et al. Alkali doped polybenzimidazole membrane   for high performance alkaline direct ethanol fuel cell. Journal of Power Sources, 2008,   182: 95-99.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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