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宋安刚

能源与动力工程学部

办公电话：0531-82605584

电子邮件：angang.song@sderi.cn

通讯地址：济南市历下区科院路19号  邮政编码：250014

个人简历

工作经历

2020.12-至今：副研究员，齐鲁工业大学，能源学部

2017.01-2020.03：亥姆霍兹柏林材料与能源研究所，Helmholtz-Zentrum Berlin für Materialien und Energie（HZB）

教育背景

2016.10-2020.03：柏林工业大学 （Technische Universit?t Berlin），化学，博士

研究方向

1.氢能、太阳能燃料、人工光合作用

2.光电半导体薄膜材料与器件

3.新型先进等离子体镀膜技术……

科研项目

纵向课题

1. 可再生能源制氢关键技术集成研究,国家重点研发计划,500万元，主持，在研

2. CuBi2O4/CuMx(M=Fe, Al, Nb)Oy异质结界面结构调控及光电催化性能研究,国家自然科学基金青年项目，30万元，主持，在研

3. 基于GFS技术的半导体薄膜与器件制备及其光电应用关键技术研究，山东省优秀青年科学基金项目（海外）,60万元，主持，在研

4. 光电半导体材料和器件以及太阳能燃料等相关研究领域应用基础研究,山东省海外科技引才计划, 20万元，主持，在研

5. 高品质无铟建筑智能玻璃关键技术研究，山东省建筑与交通双碳创新创业共同体， 22.5万元，主持，结题

6. 基于GFS技术的光电薄膜和装备制造，山东省国际科技合作创新创业共同体，，20万元，主持，结题

7. 基于HITUS技术的半导体薄膜与器件制备及其光电制氢应用关键技术研究，济南市“新高校20条”，主持，在研……

代表性论文

期刊论文

[1] A. Song, I. Levine, R. van de Krol, T. Dittrich*, S.P. Berglund*, Revealing the relationship between photoelectrochemical performance and interface hole trapping in CuBi2O4 heterojunction photoelectrodes, Chemical Science, 11 (2020) 11195-11204. 

[2] A. Song, A. Chemseddine, I.Y. Ahmet, P. Bogdanoff, D. Friedrich, F.F. Abdi, S.P. Berglund, R. van de Krol*, Evaluation of copper vanadate (β-Cu2V2O7) as a photoanode material for photoelectrochemical water oxidation, Chemistry of Materials, 32 (2020) 2408-2419. 

[3] A. Song, S.P. Berglund, A. Chemseddine, D. Friedrich, F.F. Abdi, R. van de Krol*, Elucidating the optical, electronic, and photoelectrochemical properties of p-type copper vanadate (p-Cu5V2O10) photocathodes, Journal of Materials Chemistry A, 8 (2020) 12538-12547. 

[4] A. Song, P. Bogdanoff, A. Esau, I.Y. Ahmet, I. Levine, T. Dittrich, T. Unold, R. van de Krol, S.P. Berglund*, Assessment of a W: BiVO4-CuBi2O4 tandem photoelectrochemical cell for overall solar water splitting, ACS Applied Materials Interfaces, 12 (2020) 13959-13970. 

[5] A. Song, P. Plate, A. Chemseddine, F. Wang, F.F. Abdi, M. Wollgarten, R. van de Krol, S.P. Berglund*, Cu: NiO as a hole-selective back contact to improve the photoelectrochemical performance of CuBi2O4 thin film photocathodes, Journal of Materials Chemistry A, 7 (2019) 9183-9194.

[6] A. Song*, S. Liu, Q. Wang, D. Gao, J. Hu, Comprehensive evaluation of copper vanadate (α-CuV2O6) for use as a photoanode material for photoelectrochemical water splitting, Journal of Environmental Chemical Engineering, 11 (2023) 109892. 

[7] A. Song*, S. Liu, Q. Wang, D. Gao*, J. Hu*, Assessing the suitability of copper vanadate (Cu11V6O26) for use as a photoanode material for photoelectrochemical water oxidation, ACS Applied Energy Materials, 5 (2022) 9512-9519. 

[8] A. Song*, Z. Li, B. Wulan, S. Liu, B. Zhao, D. Zhu, J. Hu, CuAlO2/CuBi2O4 heterojunction photocathodes with improved charge collection for efficient solar water splitting, Journal of Alloys and Compounds, 960 (2023) 170769. 

[9] A. Song*, Y. Zhang, Z. Li, J. Hu, BiVO4/CuBi2O4 heterojunction photoanodes with enhanced charge separation for efficient photoelectrochemical water splitting, Materials Science and Engineering: B, 302 (2024) 117241. 

[10] A. Song*, Y. Wang, S. Liu, Q. Wang, J. Hu, Role of materials chemistry on transparent conductivity of amorphous Nb-doped SnO2 thin films prepared by remote plasma deposition, Coatings, 12 (2022) 1111. 

[11] A. Song*, G. Cao, D. Zhu, B. Zhao, Z. Fu, S. Cao, Q. Wang, J. Hu*, Influence of oxygen vacancies on atomic chemistry and transparent conductivity of Nb-doped TiO2 films, Journal of Electronic Materials, 51 (2022) 6885-6893.

[12] Y. Zhang, Z. Lin, S. Duan, Y. Yuan, A. Song*, Y. Ma*, Spectroelectrochemical Identification of CuO Impurities Catalyzing Water Reduction on CuBi2O4 Photocathodes, ACS Energy Letters, 9 (2024) 1761-1770. 

[13] Z. Li, J. Hu, S. Liu, B. Zhao, D. Zhu, A. Song*, Investigation of p-CuNb2O6 for use as photocathodes for photoelectrochemical water splitting, International Journal of Hydrogen Energy, 51 (2024) 713-722. 

[14] Z. Lin, S. Hao, Z. Li, J. Hu, A. Song*, Elucidation of the optical, electronic, and photoelectrochemical properties of p-type CuFe2O4 photocathodes, International Journal of Hydrogen Energy, 77 (2024) 511-519.

[15] Y. Wang, J. Hu, S. Liu, D. Zhu, Z. Li, A. Song*, Influence of grain size on photoelectrocatalytic performance of CuBi2O4 photocathodes, International Journal of Hydrogen Energy, 47 (2022) 37774-37782. 

[16] Y. Wang, J. Hu, S. Liu, D. Zhu, B. Zhao, A. Song*, Fast solvent evaporation of phase pure CuBi2O4 photocathodes for photoelectrocatalytic water splitting, Journal of Electroanalytical Chemistry, 944 (2023) 117639. 

[17] Q. Wang, J. Hu*, A. Song*, Influence of oxygen flow on structural, optical, and electrical properties of Al:SnO2 films deposited at room temperature, Journal of Electronic Materials, 53 (2024) 2094-2103. 

[18] Z. Li, Z. Lin, Y. Zhang, J. Hu, A. Song*, Enhanced photoelectrocatalytic activity of CuO/CuNb2O6 heterojunction photocathodes for efficient solar water splitting, ChemistrySelect, 9 (2024) e202401182.

[19] Y. Lv, S. Yang, Y. Qin*, J. Ren, A. Song*, S. Li, D. Gao*, Tuning intrinsic strain in PtCuCr nanoframes boosts electro-oxidation of liquid fuels, Chemical Engineering Science, 284 (2024) 119486. 

[20] Y. Zhang, Y. Xu, K. Zhang, Z. Li, Z. Lin, J. Hu, A. Song*, Adjusting the covalency of metal-oxygen bonds in CuBi2O4 by Zn cation doping to achieve highly efficient photocathodes, Chemistry - An Asian Journal, (2024) e202400431.

[21] C. Zhang#, A. Song#, P. Yuan, Q. Wang, P. Wang, S. Zhang, G. Cao, J. Hu*, Amorphous carbon shell on Si particles fabricated by carbonizing of polyphosphazene and enhanced performance as lithium ion battery anode, Materials Letters, 171 (2016) 63-67. 

[22] A. Song, Synthesis and characterization of Cu-based multinary metal oxides for photoelectrochemical water splitting, Technische Universit?t Berlin, 2020, doi.org/10.14279/depositonce-9820

教学工作

本科生课程

1. 《氢能技术》（40学时）

2. 《燃料电池原理与应用》（40学时）

研究生课程

1. 《氢能技术与燃料电池》（40学时）

指导研究生

1. 2020级硕士：王义文

2. 2021级硕士：李治学

3. 2022级硕士：林泽泽

4. 2023级硕士：郝书凯

5. 2024级硕士：王昱琳

荣誉奖励

1. 2022年，入选山东省“海外优青”

2. 2021年，入选山东省海外科技人才