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电话:18862300589
邮箱:lzbu@xmu.edu.cn
研究方向: 铂钯基纳米材料、电催化、燃料电池、功能碳材料
2021.12 ~ 至今,厦门大学,环球360游戏网址,副教授,博士生导师
2020.12 ~ 2021.12,厦门大学,化学化工学院,博士后(导师:黄小青教授)
2017.09 ~ 2020.11,苏州大学,材料与化学化工学部,博士后(导师:黄小青教授)
2011.09 ~ 2017.06,苏州大学, 材料与化学化工学部, 博士(导师:姚建林教授、黄小青教授)
多组分一维/二维铂钯基纳米材料的结构表征、催化性能、构效关系及催化机理;高效铂基燃料电池催化剂的设计; 燃料电池用气体扩散层碳纸及先进碳材料的开发。
福建省级高层次人才(C类) (2022)
厦门大学“南强青年拔尖人才支持计划”(B类) (2021)
2019年度江苏省科学技术一等奖 (第三完成人) (2020)
苏州大学优秀博士后 (2020)
中国博士后科学基金第12批特别资助 (站中) (2019)
江苏省优秀博士学位论文 (2018)
2016 ~ 2017年度苏州市自然科学优秀学术论文一等奖 (2018)
苏州“四创”好青年 (2017)
苏州大学优秀博士学位论文 (2017)
苏州大学优秀毕业研究生 (2017)
[1] L. Z. Bu, N. Zhang, S. J. Guo,* X. Zhang, J. Li, J. L. Yao, T. Wu, G. Lu, J. Y. Ma, D. Su,* X. Q. Huang,* Biaxially strained PtPb/Pt core/shell nanoplate boosts oxygen reduction catalysis. Science, 2016, 354, 1410−1414. (Highly Cited Paper, IF = 63.714)
[2] L. Z. Bu,* F. D. Ning, J. Zhou, C. H. Zhan, M. Z. Sun, L. G. Li, Y. M. Zhu, Z. W. Hu, Q. Shao, X. C. Zhou, B. L. Huang,* X. Q. Huang,* Three-dimensional porous platinum-tellurium-rhodium surface/interface achieve remarkable practical fuel cell catalysis. Energy Environ. Sci., 2022, 15, 3877-3890. (IF = 39.714)
[3] L. Z. Bu, S. J. Guo,* X. Zhang, X. Shen, D. Su, G. Lu, X. Zhu, J. L. Yao, J. Guo, X. Q. Huang,* Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis. Nat. Commun., 2016, 7, 11850. (Highly Cited Paper, IF = 17.694)
[4] C. H. Zhan,# Y. Xu,# L. Z. Bu,* H. Z. Zhu, Y. G. Feng, T. Yang, Y. Zhang, Z. Q. Yang, B. L. Huang,* Q. Shao, X. Q. Huang,* Subnanometer high-entropy alloy nanowires enable remarkable hydrogen oxidation catalysis. Nat. Commun., 2021, 12, 6261. (IF = 17.694)
[5] L. Z. Bu, Q. Shao, B. E, J. Guo, J. L. Yao, X. Q. Huang,* PtPb/PtNi intermetallic core/atomic layer shell octahedra for efficient oxygen reduction electrocatalysis. J. Am. Chem. Soc., 2017, 139, 9576−9582. (Highly Cited Paper, IF = 16.383)
[6] L. Z. Bu, Q. Shao, Y. C. Pi, J. L. Yao, M. C. Luo, J. P. Lang, S. Hwang, H. L. Xin, B. L. Huang,* J. Guo, D. Su,* S. J. Guo,* X. Q. Huang,* Coupled s-p-d exchange in facet-controlled Pd3Pb tripods enhances oxygen reduction catalysis. Chem, 2018, 4, 359−371. (IF = 25.832)
[7] L. Z. Bu, J. B. Ding, S. J. Guo,* X. Zhang, D. Su, X. Zhu, J. L. Yao, J. Guo, G. Lu, X. Q. Huang,* A general method for multimetallic platinum alloy nanowires as highly active and stable oxygen reduction catalysts. Adv. Mater., 2015, 27, 7204−7212. (IF = 32.086)
[8] L. Z. Bu, B. L. Huang, Y. M. Zhu, F. D. Ning, X. C. Zhou, X. Q. Huang,* Highly distorted platinum nanorods for high-efficiency fuel cell catalysis. CCS Chem., 2020, 2, 401−412. (Flagship new magazine of the China Chemical Society)
[9] L. Z. Bu,# X. R. Zhu,# Y. M. Zhu,# C. Cheng, Y. F. Li, Q. Shao, L. Zhang, X. Q. Huang,* H-implanted Pd icosahedra for oxygen reduction catalysis: from calculation to practice. CCS Chem., 2020, 2, 1972−1982. (Flagship new magazine of the China Chemical Society)
[10] M. M. Wang, M. J. Wang, C. H. Zhan, H. B. Geng, Y. H. Li,* X. Q. Huang,* L. Z. Bu,* Ultrafine platinum-iridium distorted nanowires as robust catalysts toward bifunctional hydrogen catalysis. J. Mater. Chem. A, 2022, 10, 18972−18977. (IF = 14.511)
[11] Y. G. Feng,# Z. L. Zhao,# F. Li,# L. Z. Bu,* Q. Shao, L. G. Li, J. B. Wu,* X. Zhu, G. Lu, X. Q. Huang,* Highly surface-distorted Pt superstructures for multifunctional electrocatalysis. Nano Lett., 2021, 21, 5075−5082. (IF = 12.262)
[12] Y. M. Zhu,# J. H. Peng,# X. R. Zhu,# L. Z. Bu,* Q. Shao, C. W. Pao, Z. W. Hu, Y. F. Li, J. B. Wu,* X. Q. Huang,* A large-scalable, surfactant-free, and ultrastable Ru-doped Pt3Co oxygen reduction catalyst. Nano Lett., 2021, 21, 6625−6632. (IF = 12.262)
[13] L. Z. Bu,# C. Y. Tang,# Q. Shao, X. Zhu, X. Q. Huang,* Three-dimensional Pd3Pb nanosheet assemblies: high-performance non-Pt electrocatalysts for bifunctional fuel cell reactions. ACS Catal., 2018, 8, 4569−4575. (IF = 13.700)
[14] L. Z. Bu, Y. G. Feng, J. L. Yao,* S. J. Guo, J. Guo, X. Q. Huang,* Facet and dimensionality control of Pt nanostructures for efficient oxygen reduction and methanol oxidation electrocatalysts. Nano Res., 2016, 9, 2811−2821. (IF = 10.269)
[15] T. Yang,# C. Y. Yang,# J. B. Le, Z. Y. Yu, L. Z. Bu,* L. G. Li, S. X. Bai, Q. Shao, Z. W. Hu, C. W. Pao, J. Cheng,* Y. G. Feng, X. Q. Huang,* Atomically isolated Pd sites within Pd-S nanocrystals enable trifunctional catalysis for direct, electrocatalytic and photocatalytic syntheses of H2O2. Nano Res., 2021, 15, 1861−1867. (IF = 10.269)
[16] L. Z. Bu, Q. Shao, X. Q. Huang,* Highly porous Pt-Pb nanostructures as active and ultrastable catalysts for polyhydric alcohol electrooxidations. Sci. China Mater., 2019, 62, 341−350. (IF = 8.640)
[17] L. B. Liu,# C. Y. Tang,# L. Z. Bu,* X. H. Xiao, X. Q. Huang,* Two-dimensional PtPb-PbS heterostructure enables improved kinetics and highlighted bifunctional antipoisoning for methanol electrooxidation. Sci. China Chem., 2022, 65, 1112−1121. (IF = 10.138)
[18] J. T. Zhang,# J. B. Le,# Y. T. Dong, L. Z. Bu,* Y. Zhang, J. Cheng, L. G. Li, X. Q. Huang,* Face-centered cubic structured RuCu hollow urchin-like nanospheres enable remarkable hydrogen evolution catalysis. Sci. China Chem., 2022, 65, 87−95. (IF = 10.138)