李建辉(高级工程师)

个人简历：

威尼斯615vip游戏醇醚酯国家工程实验室 高级工程师、主任助理（2012.11-）

厦门市发改委高技术处 副处长（挂职，2022.05-2023.04）

新疆昌吉学院 化学系 副主任（中组部第八期援疆，2014.09-2017.08）

加拿大Alberta大学化工系 博士后（2010.07 -2012.07）

威尼斯615vip游戏 理学学士-博士（2000.09 -2010.06）

研究兴趣：

“氟光聚化”：

氟聚合：含氟单体/聚合物；

光聚合：UV光敏/光固聚合物；

电子胶：PU/PA/PI/EP等；

催化：氧化/还原/偶联催化工艺；

纯化：脱盐/电子级提纯工艺。

社会兼职：

全国煤化工国家标准委员会  委员

中国能源学会新能源专家组  委员

厦门市表面处理工程协会    顾问

近期主要代表论著：

主持国家自然科学基金面上项目2项、青年项目1项；主持企业合作项目多项，H指数28。

1. 1. Yang, Y.; Ding, Z.; Wang, H.; Li, J. H.; Zheng, Y.; Guo, H.; Zhang, L.; Yang, B.; Gu, Q.; Xiong*, H.; Sun*, Y., Dynamic tracking of exsolved PdPt alloy/perovskite catalyst for efficient lean methane oxidation. Chinese Chemical Letters 2024, 35 (4), 108585.

2. 2. Lei, X.; Jiang, C.; Han, Q.; Zhang, X.; Zhao, K.; Yan, N.; Guo, H.; Tang, B.; Li, Y.; Cui, Y.; Fu, X. Z.; Li, J. H.; Sun*, Y. F., Unraveling the Oxygen Vacancy Site Mechanism of a Self-Assembly Hybrid Catalyst for Efficient Alkaline Water Oxidation. ACS Catalysis 2024, 14, 4523-4535.

3. 3. Zhang, X.; Zheng, Y.; Ding, Z.; Yang, G.; Xiao, X.; Peng, M.; Wu, M.; Li, J. H.; Liu, J.; Alodhayb, A.; Fu, X. Z.; Shao, Z.; Sun*, Y. F., Nanoscale Intertwined Biphase Nanofiber as Active and Durable Air Electrode for Solid Oxide Electrochemical Cells. ACS Sustainable Chemistry & Engineering 2023, 11 (23), 8592-8602.

4. 4. Zhang, X.; Liu, B.; Yang, Y.; Li, J. H.; Li, J.; Zhao, Y.; Jia*, L.; Sun*, Y. F., Advances in component and operation optimization of solid oxide electrolysis cell. Chinese Chemical Letters 2023, 34 (5), 108035.

5. 5. Zhang, L.; Yang, Y.; Zhou, Z.; Li, J. H.; Chen, G.; Zhou, L.; Qiu), Y. F.; Sun*, Y., Redispersion of exsolved Cu nanoparticles on LaFeO3 photocatalyst for tunable photocatalytic CO2 reduction. Chemical Engineering Journal 2023, 452, 139273.

6. 6. Li, Z.; Peng, M.; Zhang, X.; Zhang, L.; Li, J. H.; Sun*, Y. F., Preparation of SOFC Anodes at Lower Temperature with Boosted Electrochemical Performance. ACS Applied Energy Materials 2023, 6 (6), 3616-3626.

7. 7. Huang, Z.; Zhang, Q.; Ma, X.; Chen, B.; Fan, T.; Zhang, Z.; Zhang, S.; Dong, Y.; Li, J. H.; Chen*, Z.; Yi*, X. D., Construction of 0D/1D CdS/g-C3N4 Z-scheme heterojunction for highly selective photocatalytic benzylamine oxidative coupling. Materials Today Chemistry 2023, 29, 101475.

8. 8. 李建辉; 钟秀芳; 张立忠; 李伟鹏; 孙毅飞; 张俊 稀土氟氧化物催化醇选择性氧化的应用及制备方法. CN 116966899A, 2023.07.31, 2023.

9. 9. 李建辉; 王慧敏; 钟秀芳; 张立忠; 孙毅飞; 李伟鹏; 沈泽钦; 王士涛; 陈婧; 张俊 一种甘油电催化氧化制甘油酸的方法. CN 116083929A, 2023.02.22, 2023.

10. 10. Zhang, L.; Yang, Y.; Tian, J.; Li, J. H.; Chen, G.; Zhou, L.; Sun*, Y. F.; Qiu*, Y. F., Selective Photocatalytic Reduction of CO2 to Syngas Over Tunable Metal‐Perovskite Interface. ChemSusChem 2022, 15 (6), e202102729.

11. 11. Yang, Y.; Zhang, L.; Guo, H.; Ding, Z.; Wang, W.; Li, J. H.; Zhou, L.; Tu*, X.; Qiu*, Y. F.; Chen, G.; Sun*, Y. F., Keys Unlocking Redispersion of Reactive PdO x Nanoclusters on Ce-Functionalized Perovskite Oxides for Methane Activation. ACS Applied Materials & Interfaces 2022, 14 (27), 30704-30713.

12. 12. Yang, Y. L.; Wang, S.; Tu*, X.; Hu, Z. W.; Zhu*, Y. L.; Guo, H. Q.; Li, Z. S.; Zhang, L.; Peng, M. L.; Jia, L.; Yang, M. T.; Yang, G. M.; Qiao, X. R.; Sun, J. H.; Liang, X.; Zhang, Z.; Zhu, Y. R.; Shi, L.; Jiang, C. X.; Zhao, Y. R.; Li, J. H.; Shao, Z. P.; Zhang*, X.; Sun*, Y. F., Atomic cerium modulated palladium nanoclusters exsolved ferrite catalysts for lean methane conversion. Exploration 2022, 2 (6), 20220060.

13. 13. Yang, Y.; Li, J. H.; Sun*, Y. F., The metal/oxide heterointerface delivered by solid-based exsolution strategy: a review. Chemical Engineering Journal 2022, 440, 135868.

14. 14. Li, Z.; Peng, M.; Zhu, Y.; Hu, Z.; Pao, C.-W.; Chang, Y.-C.; Zhang, Y.; Zhao, Y. R.; Li, J. H.; Sun*, Y. F., The facilitated cathodic elementary reactions of solid oxide electrolysis cells for CO₂ conversion over a Ce decorated La_0.43Ca_0.37Ti_0.94Ni_0.06O_3−δ electrocatalyst. Journal of Materials Chemistry A 2022, 10 (38), 20350-20364.

15. 15. Zhong, Y.; Chen, Z.; Chen, G.; Luo, Y.; Zhang, L.; Hua, B.; Li*, J. H.; Sun*, Y. F., β-Cyclodextrin-assisted fabrication of hierarchically porous carbon sheet with O/N defects for electrical double-layer supercapacitor. Journal of Materials Science: Materials in Electronics 2021, 32 (15), 15046–15058.

16. 16. Wu, H.; Jian, W.; Zhang, L.; Lin, J.; Li*, J. H., Boosting carrier separation in Ag/AgBr/halloysite-nanotubes composites for enhanced photocatalytic performance. Materials Science in Semiconductor Processing 2021, 121, 105373.

17. 17. Tang, L.; Fan, T.; Chen, Z.; Tian, J.; Guo, H.; Peng, M.; Zuo, F.; Fu, X. Z.; Li, M.; Bu, Y.; Luo*, Y.; Li*, J. H.; Sun*, Y. F., Binary-dopant promoted lattice oxygen participation in OER on cobaltate electrocatalyst Chemical Engineering Journal 2021, 417, 129324.

18. 18. Peng, M.; Huang, J.; Zhu, Y.; Zhou, H.; Hu, Z.; Liao, Y.-K.; Lai, Y.-H.; Chen, C.-T.; Chu, Y.-H.; Zhang, K. H. L.; Fu, X.; Zuo, F.; Li, J. H.; Sun*, Y. F., Structural Anisotropy Determining the Oxygen Evolution Mechanism of Strongly Correlated Perovskite Nickelate Electrocatalyst. ACS Sustainable Chemistry Engineering 2021, 9 (11), 4262–4270.

19. 19. Ma, X.; Li, B. K.; Shi, K.; Liao, X. J.; Wang, H. M.; Tang, L. N.; Zhang, L. Z.; Sun, Y. F.; Li*, J. H., Ni-Zn supported defective carbon with multi-functional catalytic sites for Baeyer–Villiger reaction using air as oxidant. Journal of Materials Science 2021, 56 (2), 14684–14699.

20. 20. Li, Z. S.; Peng, M. L.; Zhao, Y. R.; Li, J. H.; Sun*, Y. F., Minimized thermal expansion mismatch of cobalt-based perovskite air electrodes for solid oxide cells. Nanoscale 2021, 13, 20299-20308.

21. 21. Li, Z.; Cui, L.; Luo, J.; Li, J.; Sun*, Y., Perovskite Chromite With In-Situ Assembled Ni-Co Nano-Alloys: A Potential Bifunctional Electrode Catalyst for Solid Oxide Cells. Fronties in Chemistry 2021, 8, 595608.

22. 22. 李建辉; 廖雪娟; 王慧敏; 李伟鹏; 张立忠 一种钙钛矿催化剂在催化二氧化碳加氢制甲酸中的应用及制备方法. CN 113292411B, 2022.06.21, 2021.

23. 23. 李建辉; 李伟鹏; 张立忠; 王士涛; 沈泽钦; 张俊; 孙毅飞 一种T1异构体占比低的六氟丙烯三聚体的合成方法. CN 113968770A, 2021.11.04, 2021.

24. 24. 李建辉; 李伟鹏; 张立忠; 沈泽钦; 王士涛; 张俊; 孙毅飞 一种六氟丙烯齐聚物的合成方法. CN 113880685B, 2021.11.04, 2021.

25. 25. Tang, L.; Chen, Z.; Zuo, F.; Hua, B.; Zhou, H.; Li, M.; Li*, J. H.; Sun*, Y. F., Enhancing perovskite electrocatalysis through synergistic functionalization of B-site cation for efficient water splitting. Chemical Engineering Journal 2020, 401, 126082.

26. 26. Tang, L.; Chen, Z.; Chen, G.; Zuo, F.; Hua, B.; Zhang, L.; Li*, J. H.; Sun*, Y. F., CaH₂-assisted structural engineering of porous defective graphitic carbon nitride (g-C₃N₄) for enhanced photocatalytic hydrogen evolution. International Journal of Hydrogen Energy 2020, 45, 18937-18945.

27. 27. Chen, Z.; Hua, B.; Zhang, X.; Chen, L.; Zhang, Y.-Q.; Yang, G.; Wan, G.; Zhou, H.; Yang, Y.; Chen, J.; Fan, H.; Li, Q.; Li, M.; Li*, J. H.; Zhou, W.; Shao, Z.; Luo, J.-L.; Sun*, Y. F., Organic Photochemistry-Assisted Nanoparticle Segregation on Perovskites. Cell Reports: Physical Science 2020, 1 (11), 100243.

28. 28. Chen, Z.; Gao, M.; Zhang, Y.-Q.; Duan, N.; Fan, T.; Xiao, J.; Zhang, J.; Dong, Y.; Li, J. H.; Yi*, X. D.; Luo*, J. L., Tuning local carbon active sites saturability of graphitic carbon nitride to boost CO₂ electroreduction towards CH₄. Nano Energy 2020, 104833.

29. 29. Chen, Z.; Gao, M.; Duan, N.; Zhang, J.; Zhang, Y.-Q.; Fan, T.; Zhang, J.; Dong, Y.; Li, J. H.; Liu, Q.; Yi*, X.; Luo*, J. L., Tuning adsorption strength of CO₂ and its intermediates on tin oxide-based electrocatalyst for efficient CO₂ reduction towards carbonaceous products. Applied Catalysis B: Environmental 2020, 277, 119252.

30. 30. Chen, Z.; Fan, T.; Zhang, Y.-Q.; Xiao, J.; Gao, M.; Duan, N.; Zhang, J.; Li, J. H.; Liu, Q.; Yi*, X.; Luo*, J. L., Wavy SnO₂ catalyzed simultaneous reinforcement of carbon dioxide adsorption and activation towards electrochemical conversion of CO₂ to HCOOH. Applied Catalysis B: Environmental 2020, 261, 118243.

31. 31. 李建辉; 马旭飞; 钟越; 李伟鹏; 张立忠; 张俊; 孙毅飞 一种镍基催化剂及制备方法和应用以及有机酮催化氧化制备有机酯的方法. 2020.05.13, 2020.

32. 32. Zhu, Q.-H.; Chen*, Z.; Tang, L.-N.; Zhong, Y.; Zhao, X.-F.; Zhang*, L.-Z.; Li*, J. H., K and halogen binary-doped graphitic carbon nitride (g-C₃N₄) toward enhanced visible light hydrogen evolution. International Journal of Hydrogen Energy 2019, 44 (51), 27704-27712.

33. 33. Chen, Z.; Fan, T.-T.; Zhang, Q.-Y.; He, J.-W.; Fan, H.-Q.; Sun, Y.-F.; Yi*, X.-D.; Li*, J. H., Interface engineering: surface hydrophilic regulation of LaFeO₃ towards enhanced visible light photocatalytic hydrogen evolution. Journal of Colloid and Interface Science 2019, 536, 105-111.

34. 34. Chen, Z.; Fan, T.-T.; Shao, M.-Y.; Yu, X.; Wu, Q.-L.; Li, J. H.; Fang, W.-P.; Yi*, X.-D., Simultaneously enhanced photon absorption and charge transport on a distorted graphitic carbon nitride toward visible light photocatalytic activity. Applied Catalysis B: Environmental 2019, 242, 40-50.

35. 35. Zhu, Q.-H.; Zhang*, L.-Z.; Min, X.-M.; Yu, Y.-X.; Zhao, X.-F.; Li*, J. H., Comb-typed polycarboxylate superplasticizer equiped with hyperbranched polyamide teeth. Colloids and Surface A 2018, 553 (20), 272-277.

36. 36. Sun, Y.-F.; Yang, Y.-L.; Chen, J.; Li, M.; Zhang, Y.-Q.; Li*, J. H.; Hua*, B.; Luo*, J.-L., Toward rational photocatalyst design: A new formation strategy of co-catalyst/semiconductor heterostructure via in situ exsolution. Chemical Communications 2018, 54, 1505-1508.

37. 37. Liu, X.; Zhai, Z.-Y.; Chen, Z.; Zhang*, L.-Z.; Zhao, X.-F.; Si*, F.-Z.; Li*, J. H., Engineering Mesoporous NiO with Enriched Electrophilic Ni³⁺ and O^- toward Efficient Oxygen Evolution Catalysts 2018, 8, 310-321.

38. 38. Chen, Z.; Yu, X.; Zhu, Q.-H.; Fan, T.-T.; Wu, Q.-L.; Zhang, L.-Z.; Li, J. H.; Fang, W.-P.; Yi*, X.-D., Steam engraving optimization of graphitic carbon nitride with enhanced photocatalytic hydrogen evolution. Carbon 2018, 139, 189-194.

39. 39. Chen, Z.; Fan, T.-T.; Yu, X.; Wu, Q.-L.; Zhu, Q.-H.; Zhang, L.-Z.; Li, J. H.; Fang, W.-P.; Yi*, X.-D., Gradual carbon doping of graphitic carbon nitride towards metal-free visible light photocatalytic hydrogen evolution. Journal of Materials Chemistry A 2018, 6, 15310-15319.

40. 40. 张立忠; 李建辉; 赵秀峰 一种高氧指数酚醛树脂的合成方法. CN 106589801B, 2018-11-13, 2018.

41. 41. 李建辉; 张立忠; 赵秀峰 一种用PET回收料增强酚醛树脂泡沫板韧性的方法 CN 106589800B, 2018-08-07, 2018.

42. 42. 李建辉; 翟志远; 张立忠; 刘进文; 祝秋会; 李伟鹏; 王尔跃; 张俊 一种阳离子型高分子聚合物的制备方法和阳离子型高分子絮凝剂及其应用. CN 109679036A, 2018.

43. 43. Zeng*, H.-H.; Xiu, L.; Ting, W.; Xueqin, L.; Tianxiang, L.; Xuemei, M.; Qiuhui, Z.; Zhao, X.-F.; Li*, J. H., Boosting visible light photo-/Fenton-catalytic synergetic activity of BiOIO₃ by coupling with Fe₂O₃. RSC Advances 2017, 7 (23787-23792).

44. 44. Zeng, H.-H.; Zhang, H.-X.; Wu, X.; Gu, H.-X.; Zhang, L.-Z.; Liu*, Y.-Y.; Zhao, X.-F.; Li*, J. H., Pollution levels and health risk assessment of particu late phthalic acid esters in arid urban areas. Atmospheric Pollution Research 2017, 8, 188-195.

45. 45. Zeng, H.-H.; Li, X.-Q.; Hao, W.-L.; Zhang, L.-Z.; Wei, T.; Zhao*, X.-F.; Liu, Y.-Y.; Li*, J. H., Determination of phthalate esters in airborne particulates by heterogeneous photo-Fenton catalyzed aromatic hydroxylation fluorimetry. Journal of Hazardous Materials 2017, 324, 250-257.

46. 46. Xie, Y.; Sun, Q.; Fu, Y.; Song, L.; Liang, J.; Xu, X.; Wang, H.; Li, J.; Lu, X.; Li, J., Sponge-like quaternary ammonium-based poly (ionic liquid)s: toward high CO2 capture and efficient cycloaddition at mild conditions. Journal of Materials Chemistry A 2017.

47. 47. Wu, H.-Y.; Jian, W.-J.; Dong, H.-F.; Zhao*, X.-F.; Zhang, L.-Z.; Li*, J. H., Hierarchical Ag-ZnO microspheres with enhanced photocatalytic degaradation activities. Polish Journal of Environmental Studies 2017, 26 (2).

48. 48. Li, D.; Hu, R.; Dong, G.; Qiguang, Z.; Li, J.; Wang, Y.; Zheng, Y.; Tang, B.; Zhang, H., Diagnostic Absolute Configuration Determination of Tetraphenylethene Core-Based Chiral Aggregation-Induced Emission Compounds: Particular Fingerprint Bands in Comprehensive Chiroptical Spectroscopy. The Journal of Physical Chemistry C 2017, 121 (38), 20947-20954.

49. 49. Hua, B.; Li, M.; Sun, Y. F.; Li, J. H.; Luo, J. L., Enhancing perovskite electrocatalysis of solid oxide cells through controlled growth of nanoparticles. Chemsuschem 2017, 10, 3333-3341.

50. 50. Zheng, J.-W.; Duan, X.-P.; Lin, H.-Q.; Gu, Z.-Q.; Fang, H.-H.; Li, J. H.; Yuan, Y.-Z., Silver nanoparticles confined in carbon nanotubes: on the understanding of confinement effect and promotional catalysis for the selective hydrogenation of dimethyl oxalate. Nanoscale 2016, 8, 5959-5967.

51. 51. Zhang, Y.-Q.; Li, J. H.; Sun, Y.-F.; Hua, B.; Luo, J.-L., Highly active and redox-stable Ce doped LaSrCrFeO-based cathode catalyst for CO₂ SOECs. ACS Applied Materials & Interfaces 2016, 8, 6457-6463.

52. 52. Zhang, L.-Z.; Zhai, Q.; Zhao*, X.-F.; Min, X.-M.; Zhu, Q.-H.; Li*, J. H., Modified wool-iron biopolymer-based complex as an active heterogeneous decontamination photocatalyst. Journal of Energy Chemistry 2016, 25 (6), 1064-1069.

53. 53. Zhang, L.-Z.; Chen, H.; Zhao*, X.-F.; Zhai, Q.; Yin, D.-J.; Sun, Y.-F.; Li*, J. H., The marriage of ferrocene and silicotungstate: An ingenious heterogeneous Fenton-like synergistic photocatalyst. Applied Catalysis B: Environmental 2016, 193, 47-57.

54. 54. Zhai, Q.; Zhang, L.-Z.; Zhao*, X.-F.; Chen, H.; Yin, D.-J.; Li*, J. H., A novel iron-containing polyoxometalate heterogeneous photocatalyst for efficient 4-chlorophennol degradation by H₂O₂ at neutral pH. Applied Surface Science 2016, 377, 17-22.

55. 55. Sun, Y. F.; Wu, Y. Y.; Zhang, Y. Q.; Li, J. H.; Luo, Y.; Shi, Y. X.; Hua, B.; Luo, J. L., A bifunctional solid oxide electrolysis cell for simultaneous CO2 utilization and synthesis gas production. Chemical Communications 2016, 52 (94), 13687-13690.

56. 56. Sun, Y.-F.; Zhang, Y.-Q.; Hua, B.; Behnamian, Y.; Li, J.; Cui, S.-H.; Li*, J. H.; Luo*, J.-L., Molybdenum doped Pr_0.5Ba_0.5MnO_3-δ (Mo-PBMO) double perovskite as a potential solid oxide fuel cell anode material. Journal of Power Sources 2016, 301, 237-241.

57. 57. Sun, Y.-F.; Zhang, Y.-Q.; Chen, J.; Li*, J. H.; Zhu, Y.; Zeng, Y.-M.; Amirkhiz, B. S.; Li, J.; Hua*, B.; Luo*, J.-L., New Opportunity forin Situ Exsolution of Metallic Nanoparticles on Perovskite Parent. Nano Letters 2016, 16, 5303-5309.

58. 58. Sun, Y.-F.; Wu, Y.-Y.; Zhang, Y.-Q.; Li, J. H.; Luo, Y. L.; Shi, Y.-X.; Hua, B.; Luo, J.-L., A bifunctional solid oxide electrolysis cell for simultaneous CO2 utilization and synthesis gas production. Chemical Communications 2016, 52, 13687-13690.

59. 59. Sun, Y.-F.; Li*, J. H.; Zhang, Y.-Q.; Hua, B.; Luo*, J.-L., Bifunctional catalyst of core-shell nanoparticles socketed on oxygen-deficient layered perovskite for soot combustion: in-situ observation of synergistic dual active sites. ACS Catalysis 2016, 6, 2710-2714.

60. 60. Wu, H.-Y.; Wang, H.-B.; Liu, X.-H.; Li, J. H.; Yang, M.-H.; Huang*, C.-J.; Weng, W.-Z.; Wan*, H.-L., Samarium-modified vanadium phosphate catalyst for the selective oxidation of n-butane to maleic anhydride. Applied Surface Science 2015, 351, 243-249.

61. 61. Sun, Y.-F.; Zhou, X.-W.; Zeng, Y.-M.; Amirkhiz, B. S.; Wang, M.-N.; Zhang, L.-Z.; Hua, B.; Li, J.; Li*, J. H.; Luo*, J.-L., An ingenious Ni/Ce co-doped titanate based perovskite as a coking-tolerant anode material for direct hydrocarbon solid oxide fuel cells. Journal of Materials Chemistry A 2015, 3 (45), 22830-22838.

62. 62. Sun, Y.-F.; Li*, J. H.; Zeng, Y.-M.; Amirkhiz, B. S.; Wang, M.-N.; Behnamian, Y.; Luo*, J.-L., A-site deficient perovskite: The parent for in situ exsolution of highly active, regenerable nano-particles as SOFC anodes. Journal of Materials Chemistry A 2015, 3, 11048-11056.

63. 63. Sun, Y.-F.; Li*, J. H.; Wang, M.-N.; Hua, B.; Li, J.; Luo*, J.-L., A-site deficient chromite perovskite with in-situ exsolution of nano Fe: A promising bi-functional catalyst bridging growth of CNTs and SOFCs. Journal of Materials Chemistry A 2015, 3, 14625-14630.

64. 64. Sun, Y.-F.; Li*, J. H.; Cui, S.-H.; Chuang, K. T.; Luo*, J.-L., Carbon Deposition and Sulfur Tolerant La_0.4Sr_0.5Ba_0.1TiO₃–La_0.4Ce_0.6O_1.8 Anode Catalysts for Solid Oxide Fuel Cells. Electrochimica Acta 2015, 151, 81-88.

65. 65. Sun, Y.-F.; Li*, J. H.; Cui, L.; Hua, B.; Cui, S.-H.; Li, J.; Luo*, J.-L., A-site-deficiency facilitated in situ growth of bimetallic Ni-Fe nano-alloys: a novel coking-tolerant fuel cell anode catalyst. Nanoscale 2015, 7 (25), 11173-11181.

66. 66. Sun, Y.-F.; Li*, J. H.; Chuang, K. T.; Luo*, J.-L., Electrochemical performance and carbon deposition resistance of Ce-doped La_0.7Sr_0.3Fe_0.5Cr_0.5O_3-δ anode materials for solid oxide fuel cells fed with syngas. Journal of Power Sources 2015, 274, 483–487.

67. 67. Qiu, Y.-F.; Tan, G.-P.; Xu, P.-R.; Luo, Q.; Lin, X.-Z.; Huang, W.-Q.; Li, J. H., Preparation of Cu(OH)₂ and ZnO nanoarrays on surface of metal substrates by a simple method and application as ammonia sensors. Applied Surface Science 2015, 347, 548-552.

68. 68. Chen, H.; Zhang, L.-Z.; Zeng, H.-H.; Yin, D.-J.; Zhai, Q.; Zhao*, X.-F.; Li, J. H., Highly active iron-containing silicotungstate catalyst for heterogeneous Fenton oxidation of 4-chlorophenol. Journal of Molecular Catalysis A Chemical 2015, 406, 72-77.

69. 69. Sun, Y.-F.; Yan, N.; Li, J. H.; Wu, H.-Y.; Luo*, J.-L.; Chuang, K. T., The effect of calcination temperature on the electrochemical properties of La_0.3Sr_0.7Fe_0.7Cr_0.3O_3−x (LSFC) perovskite oxide anode of solid oxide fuel cells (SOFCs). Sustainable Energy Technologies & Assessments 2014, 8, 92-98.

70. 70. Qiu, Y.-F.; Xu, P.-R.; Guo, B.; Cheng*, Z.-Y.; Fan, H.-B.; Yang, M.-L.; Yang, X.-X.; Li, J. H., Electrodeposition of manganese dioxide film on activated carbon paper and its application in supercapacitors with high rate capability. Rsc Advances 2014, 4, 64187-64192.

71. 71. Cui, S.-H.; Li, J. H.; Luo*, J.-L.; Chuang, K. T.; Qiao, L.-J., Co-generation of energy and ethylene in hydrocarbon fueled SOFCs with Cr₃C₂ and WC anode catalysts. Ceramics International 2014, 40 (8), 11781-11786.

72. 72. Cui, S.-H.; Li, J. H.; Jayakumar, A.; Luo*, J.-L.; Chuang, K. T.; Hill, J. M.; Qiao*, L.-J., Effects of H₂S and H₂O on carbon deposition over La_0.4Sr_0.5Ba_0.1TiO₃/YSZ perovskite anodes in methane fueled SOFCs. Journal of Power Sources 2014, 250 (9), 134–142.

73. 73. 李建辉; 段新平; 林海强; 叶林敏; 袁友珠*, 草酸二甲酯选择性加氢催化剂的研究进展. 石油化工 2014, 43 (9), 985-994.