杨思源

 

一、个人基本资料

姓名：杨思源

性别：男

出生年月：1987.9

籍贯：辽宁省

职位：讲师 (首聘副教授)

二、联系方式

电话：15013112906

邮箱：siyuan_yang@scau.edu.cn

通讯地址：广州天河五山best365网页版登录官网北楼546室

邮编：510642

个人网站：

三、个人简述（300字内）

长期致力于满足能源和环境方面需求的无机多功能纳米材料的设计与制备研究。对目前处于热门研究领域的锂离子电池材料，超级电容器材料，高效率太阳能转换材料具有深入了解。在过去的十年中，本人重点设计并制备了多种可用于锂电，超级电容器及光电催化的无机半导体材料，如纳米TiO₂; Cu₂O; C₃N₄; SnO₂; BiPO₄; Cu(OH)₂PO₄; Ag₃PO₄; AgX(X=Cl;Br;I)及具有等离子共振效应的纳米贵金属材料（纳米Au; Ag; Cu）等。对多功能无机纳米材料的设计与制备具有深刻理解。近年来，着重致力于无机半导体材料光催化全分解水方面的研究,实现了光解水反应中产生的氢、氧两种气体的原位分离。

教育背景（依次介绍博士、硕士、本科）

2013/9-2016/6 博士 华南理工大学化学与化工学院，指导教师：彭峰（教授）

2010/9-2013/6 硕士 华南农业大学理学院，指导教师：刘晓瑭（教授）；方岳平（教授）

2006/09-2010/06，渤海大学，化学与化工学院，本科。

五、工作经历（主要工作简历+主要学术兼职）

2016/7-今     首聘副教授 best365网页版登录官网。

六、科研方向

主要从事适用于光催化（光解水制氢），光电催化的无机半导体纳米材料的开发与应用。

七、 科研项目

1. 国家自然科学基金青年基金，21802046，新型高效石墨烯基全固态Z型光催化体系的构建及其分解水产氢研究，2019/01-2019/12, 25.5万元，在研，主持。

2. 广东省自然科学基金项目，2018A0303130018，多层石墨烯Z型光催化体系的构建及其可见光催化分解海水产氢，2018/05-2021/04, 10万元，在研，主持。

3.广州市基础研究计划，基础与应用基础研究项目，泡沫镍基复合光电极光电分解水产氢研究，2021-2022,5万元，在研，主持。

3. 国家自然科学基金，面上项目，201972048，表/界面快离子导体增强调制复合高效的光催化全分解水体系， 2020-01至2024-12，65.0万元，在研，参与。

4. 国家自然科学基金，面上项目，219975083，量子点/钙钛矿太阳电池拓宽光谱响应范围，2020-01至2024-12，65.0万元，在研，参加

5. 国家自然科学基金面上项目， 21673080，具有高效太阳光活性的氢化TiO₂异相结构设计与光催化作用机制，2017/01-2020/12，65万元，在研，参加。

6. 国家自然科学基金面上项目，21173088，含氮共轭聚合物与无机半导体杂化光催化剂的设计、制备与催化机理研究，2012/01-2015/12，61万元，已结题，参加。

八、科研论著[1-41]

[1] Siyuan Yang, Haojian Guan, Yongming Zhong, Jinxia Quan, Na Luo, Qiongzhi Gao, Yuehua Xu, Feng Peng, Shengsen Zhang, Yueping Fang*, CdS@Ni₃S₂ for efficient and stable photo-assisted electrochemical (P-EC) overall water splitting, Chemical Engineering Journal, 2021, 405,126231.

[2] X. Zhou, Q. Gao, S. Yang*, Y. Fang*, Carbon nanotube@silicon carbide coaxial heterojunction nanotubes as metal-free photocatalysts for enhanced hydrogen evolution, Chinese Journal of Catalysis, 41 (2020) 62-71.

[3] Y. Zhong, S. Yang*, X. Cai, S. Zhang, Q. Gao, Y. Liu, Z. Yang, S. Yang, Y. Fang*, Bio-inspired multilayered graphene-directed assembly of monolithic photo-membrane for full-visible light response and efficient charge separation, Appl. catal. B. Enveron, 263 (2020) 117587.

[4] F. Si, C. Tang, Q. Gao*, F. Peng, S. Zhang*, Y. Fang, S. Yang*, Bifunctional CdS@Co₉S₈/Ni₃S₂ catalyst for efficient electrocatalytic and photo-assisted electrocatalytic overall water splitting, J. Mater. Chem. A, 8 (2020) 3083-3096.

[5] S. Chen, X. Zhou, J. Liao, S. Yang, X. Zhou, Q. Gao, S. Zhang*, Y. Fang*, X. Zhong, S. Zhang*, FeNi intermetallic compound nanoparticles wrapped with N-doped graphitized carbon: a novel cocatalyst for boosting photocatalytic hydrogen evolution, J. Mater. Chem. A, 8 (2020) 3481-3490.

[6] X. Zhou, Y. Fang, X. Cai, S. Zhang, S. Yang*, H. Wang, X. Zhong, Y. Fang*, In Situ Photodeposited Construction of Pt-CdS/g-C3N4-MnOx Composite Photocatalyst for Efficient Visible-Light-Driven Overall Water Splitting, ACS Appl Mater Interfaces, 12 (2020) 20579-20588.

[7] X. Zhou, Y. Zhu, Q. Gao, S. Zhang, C. Ge, S. Yang*, X. Zhong, Y. Fang*, Modified Graphitic Carbon Nitride Nanosheets for Efficient Photocatalytic Hydrogen Evolution, ChemSusChem, 12 (2019) 4996-5006.

[8] Y. Zhong, S. Yang*, S. Zhang, X. Cai, Q. Gao, X. Yu, Y. Xu, X. Zhou, F. Peng, Y. Fang*, CdS branched TiO₂: Rods-on-rods nanoarrays for efficient photoelectrochemical (PEC) and self-bias photocatalytic (PC) hydrogen production, J. Power Sources, 430 (2019) 32-42.

[9] Y. Liu, Y. Li, F*. Peng, Y. Lin, S. Yang, S. Zhang, H. Wang, Y. Cao, H. Yu, 2H- and 1T- mixed phase few-layer MoS₂ as a superior to Pt co-catalyst coated on TiO₂ nanorod arrays for photocatalytic hydrogen evolution, Appl. catal. B. Enveron, 241 (2019) 236-245.

[10] F. Li, G. Luo, J. Yu, W. Huang, D. Xu, W. Chen, X. Huang, S. Yang, Y. Fang, X. Yu, Terminal hollowed Fe₂O₃@SnO₂ heterojunction nanorods anode materials with enhanced performance for lithium-ion battery, J. Alloys Compd., 773 (2019) 778-787.

[11] H. Guan, S. Zhang, X. Cai, Q. Gao, X. Yu, X. Zhou, F. Peng*, Y. Fang*, S. Yang*, CdS@Ni₃S₂ core–shell nanorod arrays on nickel foam: a multifunctional catalyst for efficient electrochemical catalytic, photoelectrochemical and photocatalytic H2 production reaction, J. Mater. Chem. A, 7 (2019) 2560-2574.

[12] Q. Gao, F. Si, S. Zhang, Y. Fang, X. Chen, S. Yang*, Hydrogenated F-doped TiO₂ for photocatalytic hydrogen evolution and pollutant degradation, Int. J. Hydrogen Energy, 44 (2019) 8011-8019.

[13] R. Wang, M. Zu, S. Yang, S. Zhang*, W. Zhou, Z. Mai, C. Ge, Y. Xu*, Y. Fang, S. Zhang*, Visible-light-driven photoelectrochemical determination of Cu²⁺ based on CdS sensitized hydrogenated TiO₂ nanorod arrays, Sensors and Actuators B: Chemical, 270 (2018) 270-276.

[14] R. Wang, J. Yan, M. Zu, S. Yang*, X. Cai, Q. Gao, Y. Fang*, S. Zhang*, S. Zhang*, Facile synthesis of interlocking g-C₃N₄/CdS photoanode for stable photoelectrochemical hydrogen production, Electrochim. Acta, 279 (2018) 74-83.

[15] B. Wang, F. Peng*, S. Yang, Y. Cao, H. Wang, H. Yu, S. Zhang*, Hydrogenated CdS nanorods arrays/FTO film: A highly stable photocatalyst for photocatalytic H2 production, Int. J. Hydrogen Energy, 43 (2018) 17696-17707.

[16] A. Qileng, S. Yang, J. Wei, N. Lu, H. Lei, Y. Liu*, W. Liu*, Construction of CdS/Ag₂S-based broad-spectrum photoelectrochemical immunosensor for simultaneous assessment of ochratoxins by multivariable linear regression, Sensors and Actuators B: Chemical, 267 (2018) 216-223.

[17] Y.-R. Lv, R. Huo, S.-Y. Yang, Y.-Q. Liu, X.-J. Li, Y.-H. Xu*, Self-assembled synthesis of PbS quantum dots supported on polydopamine encapsulated BiVO₄ for enhanced visible-light-driven photocatalysis, Sep. Purif. Technol., 197 (2018) 281-288.

[18] Y. Liu, S. Yang*, S. Zhang, H. Wang, H. Yu, Y. Cao, F. Peng, Design of cocatalyst loading position for photocatalytic water splitting into hydrogen in electrolyte solutions, Int. J. Hydrogen Energy, 43 (2018) 5551-5560.

[19] Y. Liu, Y. Li, S. Yang, Y. Lin, J. Zuo, H. Liang, F. Peng*, Revealing the Relationship between Photocatalytic Properties and Structure Characteristics of TiO₂ Reduced by Hydrogen and Carbon Monoxide Treatment, ChemSusChem, 11 (2018) 2766-2775.

[20] W. Liu, Y. Zhong, S. Yang, S. Zhang, X. Yu, H. Wang*, Q. Li, J. Li, X. Cai*, Y. Fang, Electrospray synthesis of nano-Si encapsulated in graphite/carbon microplates as robust anodes for high performance lithium-ion batteries, Sustainable Energy & Fuels, 2 (2018) 679-687.

[21] S. Zhang, J. Yan, S. Yang, Y. Xu, X. Cai, X. Li, X. Zhang, F. Peng*, Y. Fang*, Electrodeposition of Cu₂O/g-C₃N₄ heterojunction film on an FTO substrate for enhancing visible light photoelectrochemical water splitting, Chinese Journal of Catalysis, 38 (2017) 365-371.

[22] Y. Su, S. Yang, W. Liu, L*. Qiao, J. Yan, Y. Liu, S. Zhang*, Y. Fang, Visible light photoelectrochemical sulfide sensor based the use of TiO₂ nanotube arrays loaded with Cu₂O, Microchimica Acta, 184 (2017) 4065-4072.

[23] Y. Lin, S. Yang, Y. Liu, S. Zhang, H. Wang, H. Yu, F. Peng*, In-situ photo-deposition CuO 1−x cluster on TiO₂ for enhanced photocatalytic H₂-production activity, Int. J. Hydrogen Energy, 42 (2017) 19942-19950.

[24] S.Y. Yang, H.J. Wang, H. Yu, S.S. Zhang, Y.P. Fang, S.Q. Zhang, F. Peng*, A facile fabrication of hierarchical Ag nanoparticles-decorated N-TiO₂ with enhanced photocatalytic hydrogen production under solar light, Int. J. Hydrogen Energy, 41 (2016) 3446-3455.

[25] S. Yang, K. Xu, H. Wang, H. Yu, S. Zhang, F. Peng*, Solution growth of peony-like copper hydroxyl-phosphate (Cu₂(OH)PO₄ ) flowers on Cu foil and their photocatalytic activity under visible light, Mater. Des., 100 (2016) 30-36.

[26] S. Yang, H. Wang, H. Yu, S. Zhang, Y. Fang, S. Zhang, F. Peng*, A facile fabrication of hierarchical Ag nanoparticles-decorated N-TiO₂ with enhanced photocatalytic hydrogen production under solar light, Int. J. Hydrogen Energy, 41 (2016) 3446-3455.

[27] J. Yan, S. Yang, Z. Xie, X. Li, W. Zhou, X. Zhang, Y. Fang*, S. Zhang*, F. Peng, Heterostructured CoO/₃D-TiO₂ nanorod arrays for photoelectrochemical water splitting hydrogen production, J. Solid State Electrochem., 21 (2016) 455-461.

[28] S. Zhang, B. Peng, S. Yang, H. Wang, H. Yu, Y. Fang, F. Peng*, Non-noble metal copper nanoparticles-decorated TiO₂ nanotube arrays with plasmon-enhanced photocatalytic hydrogen evolution under visible light, Int. J. Hydrogen Energy, 40 (2015) 303-310.

[29] S. Yang, S. Zhang, H. Wang, H. Yu, Y. Fang, F. Peng*, Controlled preparation of Ag–Cu₂O nanocorncobs and their enhanced photocatalytic activity under visible light, Mater. Res. Bull., 70 (2015) 296-302.

[30] J. Yuan, Q. Gao*, X. Li, Y. Liu, Y. Fang*, S. Yang, F. Peng*, X. Zhou, Novel 3-D nanoporous graphitic-C₃N₄nanosheets with heterostructured modification for efficient visible-light photocatalytic hydrogen production, RSC Adv., 4 (2014) 52332-52337.

[31] S. Yang, S. Zhang, H. Wang, H. Yu, Y. Fang, F. Peng*, Facile synthesis of self-assembled mesoporous CuO nanospheres and hollow Cu₂O microspheres with excellent adsorption performance, RSC Adv., 4 (2014) 43024-43028.

[32] B. Peng, S. Zhang, S. Yang, H. Wang, H. Yu, S. Zhang, F. Peng*, Synthesis and characterization of g-C₃N₄/Cu₂O composite catalyst with enhanced photocatalytic activity under visible light irradiation, Mater. Res. Bull., 56 (2014) 19-24.

[33] Z. Li, S. Yang, J. Zhou, D. Li, X. Zhou, C. Ge, Y. Fang*, Novel mesoporous g-C₃N₄ and BiPO₄ nanorods hybrid architectures and their enhanced visible-light-driven photocatalytic performances, Chem. Eng. J., 241 (2014) 344-351.

[34] Z. Li, B. Li, S. Peng, D. Li, S. Yang, Y. Fang*, Novel visible light-induced g-C₃N₄ quantum dot/BiPO₄nanocrystal composite photocatalysts for efficient degradation of methyl orange, RSC Adv., 4 (2014) 35144.

[35] S. Zhang, B. Peng, S. Yang, Y. Fang*, F. Peng, The influence of the electrodeposition potential on the morphology of Cu₂O/TiO₂ nanotube arrays and their visible-light-driven photocatalytic activity for hydrogen evolution, Int. J. Hydrogen Energy, 38 (2013) 13866-13871.

[36] S. Yang, W. Zhou*, C. Ge, X. Liu, Y. Fang*, Z. Li, Mesoporous polymeric semiconductor materials of graphitic-C₃N₄: general and efficient synthesis and their integration with synergistic AgBr NPs for enhanced photocatalytic performances, RSC Adv., 3 (2013) 5631-5638.

[37] P. Qi*, Y. Siyuan, G. Chunyu, L. Yingju, L. Xiaotang, F. Yueping*, Z. Jianmin, L. Zesheng*, Z. Liya, Mesopore-functional carbon sphere nanochains and their integration with alloy nanoparticles for enhanced electrochemical performances, Electrochim. Acta, 114 (2013) 334-340.

[38] S. Yang, C. Zhao, C. Ge, X. Dong, X. Liu, Y. Liu, Y. Fang*, H. Wang, Z. Li*, Ternary Pt–Ru–SnO₂ hybrid architectures: unique carbon-mediated 1-D configuration and their electrocatalytic activity to methanol oxidation, J. Mater. Chem., 22 (2012) 7104.

[39] S. Yang, B. Zhang, C. Ge, X. Dong, X. Liu, Y. Fang*, H. Wang, Z. Li*, Close-packed mesoporous carbon polyhedrons derived from colloidal carbon microspheres for electrochemical energy storage applications, RSC Adv, 2 (2012) 10310-10315.

[40] X. Yu, S. Yang, B. Zhang, D. Shao, X. Dong, Y. Fang*, Z. Li*, H. Wang, Controlled synthesis of SnO₂@carbon core-shell nanochains as high-performance anodes for lithium-ion batteries, J. Mater. Chem., 21 (2011) 12295.

[41] S. Yang, C. Ge, Z. Liu, Y. Fang, Z. Li, D. Kuang, C. Su, Novel Ga-doped, self-supported, independent aligned ZnO nanorods: one-pot hydrothermal synthesis and structurally enhanced photocatalytic performance, RSC Adv., 1 (2011) 1691.

参与学术会议及发表会议论文

1. 2019 Wiely-能源化学国际学术会议最佳邀请报奖（中青年组）。

2. Siyuan Yang, Chen Zhao, Yueping Fang, Study on SnO₂@C core-shell nano chains for direct methanol fuel  cell, The 13th National Youth Conference on Catalysis. 2010, 1, 90. Kunming, Yunnan, China.

3. Siyuan Yang, Shengseng Zhang, Feng Peng, Synthesis of novel self-assemble peony-like 3-D copper hydroxyl -phosphate (Cu₂(OH)PO₄) and their photoelectrochemical performance research. The 14th National Solar Energy Photochemistry and Photocatalysis Conference. 2014, Haerbin, Heilongjiang, China

代表性专利

(1) 方岳平; 钟永鸣; 杨思源; 张声森 一种自组装石墨烯原位生长纳米棒阵列复合膜及其制备方法 2019-12-24 中国 ZL 2017 1 0511499.6。

(2) 苏泳钊; 彭峰; 张山青; 杨思源; 方岳平；张声森 一种灵敏的便携式光电催化化学需氧量传感器 2019-5-7 中国 ZL 2017 1 0219525.8。

九、获奖情况

2017年，广东省科学技术奖二等奖，共六人，排名第六。

2015 年 9 月-2016 年 6 月,华南理工大学。优秀博士学位论文创新基金三等奖。

2014 年 9 月-2015 年 8 月,华南理工大学。优秀博士学位论文创新基金三等奖。

2013 年 11 月,华南农业大学。华南农业大学优秀硕士学位论文奖。

2013 年 6 月,华南农业大学。华南农业大学优秀毕业研究生。

2012 年 11 月,中华人民共和国教育部。硕士研究生国家奖学金。

2010  年 辽宁省大学生优秀毕业生奖。

十、写给学生的话

珍惜当下-把握未来！