姚向东博士,Dr. Xiangdong Yao
出生于1967年8月14日,安徽庐江人。
教授,博士生导师
E-mail: yaoxd3@mail.sysu.edu.cn
教育经历
2005年5月 澳大利亚昆士兰大学 博士
1992年4月 西北工业大学 硕士
1989年7月 东北工学院(现东北大学) 学士
工作经历
2022年7月 中山大学教授 国家特聘教授
2013年11月 澳大利亚格里菲斯大学能源材料首席教授 澳中能源与环境材料联合研究中心主任
2012年12月 澳大利亚格里菲斯大学教授
2009年11月 澳大利亚格里菲斯大学副教授
2009年1月 澳大利亚研究理事会冠名澳大利亚研究员
2007年9月 澳大利亚国家纳米功能材料中心 高级研究员 储氢研究组组长
2007年1月 澳大利亚詹姆斯库克大学 高级研究员
2006年1月 澳大利亚研究理事会冠名博士后研究员
2005年5月 澳大利亚詹姆斯库克大学 博士后研究员
1998年4月 中国科学院金属研究所 副研究员
1995年4月 中国科学院金属研究所 助理研究员
1992年4月 中国科学院金属研究所 研究实习员
研究领域
能源材料及纳米技术;无机化学;材料化学;能源化学;催化化学
研究项目
国内项目
科技部重点研发计划 ,“低成本钙钛矿太阳电池电解水制氢系统理论与方法研究”, 首席科学家1700万人民币. 2021-2025.
澳大利亚项目
1. 缺陷的控制合成及其在电化学催化的作用, 2020-2022. 姚向东,严学成,45万澳元,澳大利亚研究理事会项目 .(已退出,由严学成做唯一PI)
2. 用于氧还原的缺陷碳:新概念 ,2017-2019. 姚向东,杨培东,34万澳元,澳大利亚研究理事会项目
3. 生物质转化的一维催化剂 ,2013-15. 姚向东,杨东江,36万澳元,澳大利亚研究理事会项目
4. 生物质超临界水汽化规模制备 氢气,2011-2013.姚向东,王连洲,赵惠均,Debra Benhardt, Matthew Dargusch,郭烈锦,82万澳元,澳大利亚研究理事会项目
5. 硼烷局域限制系统储氢材料研究, 2010-2012.姚向东,余承忠, 36万澳元,澳大利亚研究理事会项目
6. 镁基储氢材料放氢的基础问题, 2009-2013.姚向东, 成会明, 68万澳元, 澳大利亚研究理事会项目
7. 高效氢能发电系统 ,2009-2011.姚向东,逯高清, 王连洲,67万澳元,澳大利亚研究理事会项目
8. 高效镁基储氢纳米复合材料 ,2006-2008.逯高清, 姚向东, 52万澳元,澳大利亚研究理事会项目.
学术兼职
1. 英国皇家化学会会士 (FRSC)
2. 美国化学学会会员;美国材料学会会员
3. 澳大利亚研究理事会项目评审专家;中国自然科学基金海外评审专家;教育部高层次人才海外评审专家;自然科学奖海外评审专家;科威特,加拿大,新加坡等基金会评审专家
4. 2007非线性国际会议材料分会主席;2011第三届澳中材料科学论坛主席;2017 第七届国际氢能大会主席;2019 无机材料和能源化学国际会议主席;2019 珠海材料论坛共同主席;担任其他国际会议分会主席50余次
5. 在国际国内会议做大会报告、主题报告和邀请报告90余次
6. Chemical Synthesis杂志编辑(能源材料)
7. 华南理工大学讲座教授 ,上海交通大学讲席教授,昆士兰大学客座教授,格里菲斯大学兼职教授
代表性论文
1. Q. Wu, Y. Jia, Q. Liu, X. Mao, Q. Guo, X. Yan, J. Zhao*, F. Liu, A. Du, X. Yao*
Ultra-dense carbon defects as highly active sites for oxygen reduction catalysis
Chem 2022, doi:/10.1016/j.chempr.2022.06.013
2. J. Yang, X. Xia, L. Zhang, X. Zhang, Y. Lin, L. Zhuang, W. Liu, X. Yan, L. Shi, W. Di, L. Feng, Y. Jia*, J. Wang*, K. Qian*, X. Yao*
Defective Fe Metal–Organic Frameworks Enhance Metabolic Profiling for High-Accuracy Diagnosis of Human Cancers
Advanced Materials 2022, 34, 2201422.
3. Q. Yang, H. Liu, P. Yuan*, Y. Jia, L. Zhuang, H. Zhang, X. Yan, G. Liu, Y. Zhu, J. Liu, S. Wie, L. Song, Q. Wu, B. Ge, L. Zhang, K. Wang, X. Wang, C. Chang*, X. Yao*
Single Carbon Vacancy Traps Atomic Platinum for Hydrogen Evolution Catalysis
J Am Chem Soc 2022, 144, 2171.
4. D. Li, B. Wang, X. Long*, W. Xu, Y. Xia, D. Yang*, X. Yao*
Controlled Asymmetric Charge Distribution of Active Centers in Conjugated Polymers for Oxygen Reduction
Angew Chem. Int. Ed. 2021, 133, 26483.
5. X. Lyu, Y. Jia*, X. Mao, D. Li, G. Li, L. Zhuang, X. Wang, D. Yang, Q. Wang, A. Du, X. Yao*
Gradient-concentration design of stable core-shell nanostructure for acidic oxygen reduction electrocatalysis
Advanced Materials 2020, 32, 2003493.
6. L. Zhuang, Y. Jia, H. Liu, Z. Li, M. Li, L. Zhang, X. Wang, D. Yang, Z. Zhu*, X. Yao*
S-modified oxygen vacancies in iron-cobalt oxide nanosheets: Enabling extremely high activity of oxygen evolution reaction for achieving industrial water splitting benchmark
Angew Chem. Int. Ed. 2020, 132, 14772
7. X. Wang, Y. Jia, X Mao, L. Zhang, D. Liu, L. Song, X. Yan, J. Chen, D. Yang, J. Zhou, K. Wang, A. Du*, X. Yao*
A directional synthesis for topological defect in carbon
Chem 2020, 6, 2009.
8. D. Li, C. Li, L. Zhang, H. Li, L. Zhu, D. Yang, Q. Fang*, S. Qiu, X. Yao*
J Am Chem Soc 2020, 142, 8104.
9. Q. Yang, Y. Jia, F. Wei, L. Zhuang, D. Yang, J. Liu, X. Wang, S. Lin, P. Yuan*, X. Yao*
Understanding the Activity of Co‐N4−xCx in Atomic Metal Catalysts for Oxygen Reduction Catalysis
Angew Chem. Int. Ed. 2020, 132, 6178.
10. X. Wang, Y. Jia, X. Mao, D. Liu, W. He, J. Li, J. Liu, X. Yan, J. Chen, L. Song, A. Du, X. Yao*
Edge‐Rich Fe−N4 Active Sites in Defective Carbon for Oxygen Reduction Catalysis,
Advanced Materials 2020, 32 (16), 2000966
11. L. Zhuang, L. Ge, H. Liu, Z. Jiang, Y. Jia, Z. Li, D. Yang, R. A. Hocking, M. Li, L. Zhang, X. Wang, X. Yao*, Z. Zhu*
A Surfactant-Free and Scalable General Strategy for Synthesizing Ultrathin Two-Dimensional Metal–Organic Framework Nanosheets for the Oxygen Evolution Reaction,
Angew Chem. Int. Ed. 2019, 58, 18565.
12. Y. Jia, L. Zhang, L. Zhuang, H. Liu, X. Yan, X. Wang, J. Liu, J. Wang, Y. Zheng, X. Zhao, E. Taran, J. Chen, D. Yang, Z. Zhu, S. Wang, L. Dai*, X. Yao*
Identification of active sites for acidic oxygen reduction on carbon catalysts with and without nitrogen doping
Nature Catalysis 2019, 2, 688
13. L. Zhang, Y. Jia, H. Liu, L. Zhuang, X. Yan, C. Lang, X. Wang, D. Yang, K. Huang, S. Feng, X. Yao*
Charge Polarization from Atomic Metals on Adjacent Graphitic Layers for Enhancing the Hydrogen Evolution Reaction,
Angew Chem. Int. Ed. 2019, 58, 9404.
14. Y. Jia, K. Jiang, H. Wang*, X. Yao*
The Role of Defect Sites in Nanomaterials for Electrocatalytic Energy Conversion
Chem 2019, 5, 1371.
15. J. Ortiz‐Medina*, Z. Wang, R. Cruz‐Silva, A. Morelos‐Gomez, F. Wang*, X. Yao*, M. Terrones*, M. Endo*
Defect Engineering and Surface Functionalization of Nanocarbons for Metal‐Free Catalysis,
Advanced Materials 2019, 1805717
16. Y. Zou, W. Zhang, N. Chen, S. Chen, W. Xu, R. Cai, C. L. Brown, D. Yang*, X Yao*
ACS Nano 2019, 13, 2062.
17. X. Wang, L. Zhuang, Y. Jia, H. Liu, X. Yan, L. Zhang, D. Yang, Z. Zhu*, X. Yao*
Plasma-Triggered Synergy of Exfoliation, Phase Transformation and Surface Engineering in Cobalt Diselenide for Enhanced Water Oxidation
Angew Chem. Int. Ed. 2018, 130, 16659.
18. L. Zhuang, Y. Jia, H. Liu, X. Wang, R. K. Hocking, H. Liu, J. Chen, L. Ge, L. Zhang, M. Li, C. Dong, Y. Huang, S. Shen, D. Yang, Z. Zhu*, X. Yao*
Defect-induced Pt-Co-Se coordinated sites with highly asymmetrical electronic distribution for boosting oxygen-involving electrocatalysis
Adv. Mater. 2018, 1805581.
19. X. Yan, Y. Jia, X. Yao*
Defects on Carbons for Electrocatalytic Oxygen Reduction
Chemical Society Reviews 2018, 47, 7628.
20. D. Li, Y. Jia, G. Chang, J. Chen, H. Liu, J. Wang, Y. Hu, Y. Xia, D. Yang, X. Yao*
A Defect-Driven Metal-Free Electrocatalyst for Oxygen Reduction in Acidic Electrolyte,
Chem 2018, 4, 2345.
21. J. Sun, D. Yang, S. Lowe, L. Zhang, Y. Wang, S. Zhao, P. Liu, Y. Wang, Z. Tang, H. Zhao, X. Yao*
Sandwich-like reduced graphene oxide/ carbon black/ amorphous cobalt borate nanocomposites as bifunctional cathode electrocatalyst in rechargeable zinc-air batteries
Adv. En. Mater 2018, 8, 1801495.
22. L. Zhang, J. M. Fischer, Y. Jia, X. Yan, W. Xu, X. Wang, J. Chen, D. Yang, H. Liu, L. Zhuang, M. Hankel, D. J. Searles, K. Huang, S. Feng, C. L. Brown, X Yao*
Coordination of Atomic Co-Pt Coupling Species at Carbon Defects as Active Sites for Oxygen Reduction Reaction
J Am. Chem. Soc. 2018, 140, 10757.
23. L. Zhang, Y. Jia, G. Gao, X. Yan, N. Chen, J. Chen, M. T. Soo, B. Wood, D. Yang, A. Du, X. Yao*
Defects on graphene trapping nickel single atoms for hydrogen and oxygen evolution reactions
Chem 2018, 4, 285.
24. Y. Gu, S. Chen, J. Ren, Y. Jia, C. Chen, S. Komarneni, D. Yang*, X Yao*
ACS Nano 2018, 12, 245.
25. T. Odedairo, X. Yan, X. Yao, K. Ostrikov*, Z. Zhu*
Hexagonal Sphericon Hematite with High Performance for Water Oxidation
Adv Mater. 2017, 29, 173792.
26. Y. Jia, L. Zhang, G. Gao, H. Chen, B. Wang, J. Zhou, M. T. Soo, M. Hong, X. Yan, G. Qian, J. Zou, A. Du, X. Yao*
A heterostructure coupling of exfoliated Ni-Fe hydroxide nanosheet and defective graphene as a bifunctional electrocatalyst for overall water splitting
Adv Mater. 2017, 1700017.
27. L. Zhuang, L. Ge, Y. Yang, M. Li, Y. Jia, X Yao*, Z Zhu*
Ultrathin Iron-cobalt Oxide Nanosheets with Abundant Oxygen Vacancies for Oxygen Evolution Reaction
Adv Mater. 2017, 1606793
28. Y. Jia, L. Zhang, A. Du, G. Gao, J. Chen, X. Yan, C. L. Brown, X. Yao*
Defect Graphene as a Tri-functional Catalyst for Electrochemical Reactions
Adv Mater 2016, 28, 9532.
29. J. Sun, H. Yin, P. Liu, Y. Wang, Z. Tang*, H. Zhao, X. Yao*
Molecular Engineering of Ni-/Co-Porphyrin Multilayers on Reduced Graphene Oxide Sheets as Bifunctional Catalysts for Oxygen Evolution and Oxygen Reduction Reactions
Chem Sci 2016, 7, 5640.
30. X. Yan, Y. Jia, Z. Zhu, X. Yao*
Defective Activated Carbon Supported Mn-Co Hybrid as a Highly Efficient Electrocatalyst for Oxygen Reduction
Adv Mater 2016, 28, 8771.
31. L. Fan, P. Liu, X. Yan, L. Gu, Z. Yang, H. Yang*, S. Qiu*, X. Yao*
Atomically Isolated Ni Species Anchored on Graphitized Carbon as a Highly Efficient and Durable Electrocatalyst for Hydrogen Evolution
Nature Comm 2016, 7, 10667.
32. Y. Jia, L. Cheng, N. Pan, J. Zou, G. Lu*, X. Yao*
Catalytic de/hydrogenation in Mg by co-doped Ni and VOx on active carbon: Extremely fast kinetics at low temperatures and high hydrogen capacity
Adv Energy Mater 2011, 1, 387.
33. M. Liu, L. Wang, G. Lu, X. Yao*, L. Guo*
Twins in Cd1-xZnxS Solid Solution: Highly Efficient Photocatalyst for Hydrogen Generation from Water
Energy & Environ. Sci. 2011, 4, 1372.
34. Z. Y. Li, G. S. Zhu, G. Q. Lu, S. L. Qiu*, X. Yao*
Ammonia-Borane Confined by Metal Organic Framework for Chemical Hydrogen Storage: Enhancing kinetics and eliminating ammonia
J. Am. Chem. Soc. 2010, 132, 1491.
35. L. Li, X. Yao*, C. H. Sun, A. J. Du, L. N. Chen, Z. H. Zhu, J. Zou, C. Z. Yu, S. C. Smith, P. Wang, H. M. Cheng, R. L. Frost, G. Q. Lu*
Lithium-Catalyzed Dehydrogenation of Ammonia Borane within Mesoporous Carbon Framework for Chemical Hydrogen Storage
Adv. Func. Mater. 2009, 19, 265
36. X. Yao, C. Z. Wu, A. J. Du, J. Zou, Z. H. Zhu, P. Wang, H. M. Cheng, S. C. Smith, G. Q. Lu*,
Metallic and Carbon Nanotubes-Catalysed Coupling of Hydrogenation in Magnesium
J. Am. Chem. Soc 2007, 129, 15650-15654.
37. A. J. Du, S. Smith*, X. Yao, G. Q. Lu
Hydrogen Spillover Mechanism on Pd-doped Mg Surface Revealed by ab initio Density Functional Calculation
J. Am. Chem. Soc. 2007, 129, 10201.
38. X. Yao*
On the solute coupling at the moving solid/liquid interface during equiaxed solidification,
Appl. Phys. Lett. 2006, 89, 071903.
