马晓双，博士研究生，青岛科技大学特聘副教授，硕士研究生导师。2021年毕业于华南理工大学（新能源研究所团队），主要从事结构精确币金属纳米团簇的可控制备、形成机理、结构演化剖析及其催化性质研究，并获得工学博士学位。次年受聘于青岛科技大学材料科学与工程学院，主要研究工作聚焦原子精确币金属纳米团簇，主要从事精确结构币金属纳米团簇的合成方法学探索、结构与能源催化性质的构效关系的研究。现已在《Angew. Chem. Int. Ed.》、《Chem. Sci.》、《Sci. China Chem.》、《Nanoscale》、《J. Mater. Chem. A》、《Sensor. Actuat. B-Chem.》、《Dalton Trans.》、《Commun. Chem.》等国际期刊上发表论文 20余篇，所取得的研究成果获得国际同行的认可。国内授权发明专利 2 项。中国化学会会员。到目前为止，主持国家自然基金青年项目 1 项（30万）；山东省自然基金青年项目 1 项（15万）；青岛科技大学科研启动经费 1 项（20万）；并作为科研骨干参与粤港联合创新项目、广州科技计划项目、国家自然科学基金等省部级研究项目。

课题组主页：https://www.x-mol.com/groups/wang_shuxin

ORCID ID: 0000-0002-1959-4668

代表成果论文：

2026年

[1] Y. Zuo, Z. Chen, A. Ma, X. Zhai, Y. Li, S. Yang, Y. Wang, S. Zhang*, X. Ma* and S. Wang*, Manipulating the C-C Coupling Pathway via Switchable Dual-Ligand Mediation in Copper(I) Nanoclusters for Selective CO₂ Electroreduction to Ethylene/Ethanol, Small, 2026, 22, e14571. (PDF) (材料科学一区TOP)

[2] Y. Zuo, X. Ma*, S. Zhang* and S. Wang*, Recent progress in electrochemical carbon dioxide reduction using atomically precise copper nanoclusters, Nanoscale, 2026, DOI: 10.1039/d6nr00598e. (PDF) (材料科学二区)

2025年

[1] X. Ma#, C. Fang#, M. Ding, Y. Zuo, X. Sun* and S. Wang*, Atomic-Level Elucidation of Lattice-Hydrogens in Copper Catalysts for Selective CO Electrochemical Conversion toward C₂₊ Products, Angewandte Chemie International Edition, 2025, 64, e202500191. (PDF) (化学一区TOP) (HOT PAPER, ESI高被引论文)

[2] A. Ma, Y. Li, Y. Zuo, S. Zhang, Y. Wang, Y. Ren, E. Hussain, X. Ma* and S. Wang*, Atomic-level insights into the synergistic effect between ligands on electrochemical CO reduction: based on AuAg series nanoclusters, Rare Metals, 2025, 44, 4691-4700. (PDF) (材料科学一区TOP)

[3] A. Ma, Y. Ren, Y. Zuo, J. Zhao, S. Zhang, X. Ma* and S. Wang*, Regulating Ag-Cu synergy effect via Cu doping numbers to boost CO₂ electroreduction on Ag₁₄ nanoclusters, Chemical Communications, 2025, 61, 10772-10775. (PDF) (化学二区)

2024年

[1] A. Ma, J. Wang, Y. Wang, Y. Zuo, Y. Ren, X. Ma* and S. Wang*, Atomically precise M₁₅ (M = Au/Ag/Cu) alloy nanoclusters: Structure analysis, optical and electrocatalytic CO₂ reduction properties, Polyoxometalates, 2024, 1, 9140001.(PDF) (化学一区TOP)

2023年

[1] L. Tang#, Y. Luo#, X. Ma#, B. Wang, M. Ding, R. Wang, P. Wang, Y. Pei* and S. Wang*, Poly-Hydride [Au(I)₇(PPh₃)₇H₅](SbF₆)₂   cluster complex: Structure, Transformation, and CO₂ Electrocatalytic Properties, Angewandte Chemie International Edition, 2023, 62,  e202300553. (PDF) (化学一区TOP)

[2] C. Zhang, M. Ding, Y. Ren, A. Ma,   Z. Yin*, X. Ma* and S. Wang*, The smallest superatom Au₄(PPh₃)₄I₂  with two free electrons: synthesis, structure analysis, and electrocatalytic conversion of CO₂ to CO, Nanoscale Adv., 2023, 5, 3287-3292. (PDF) (材料科学三区)

2022年

[1] X. Ma#, F. Sun#, L. Qin, Y. Liu, X. Kang, L. Wang, D. E. Jiang, Q. Tang* and Z. Tang*,  Electrochemical CO₂ reduction catalyzed by atomically precise   alkynyl-protected Au₇Ag₈, Ag₉Cu₆, and Au₂Ag₈Cu₅ nanoclusters: probing the effect of multi-metal core on selectivity, Chemical Science, 2022, 13, 10149-10158. (PDF) (化学一区TOP)

[2] M. Ding, L. Tang, X. Ma*, C. Song* and S. Wang*, Effects of ligand tuning and core doping of atomically  precise copper nanoclusters on CO₂ electroreduction selectivity, Communications Chemistry, 2022, 5, 172. (PDF) (化学一区TOP)

2021年及以前

[1] X. Ma#, L. Xiong#, L. Qin, Y. Tang, G. Ma, Y. Pei* and Z. Tang*, A homoleptic alkynyl-protected [Ag₉Cu₆(tBuC≡C)₁₂]⁺ superatom with free electrons: synthesis, structure analysis, and different  properties compared with the Au₇Ag₈ cluster in the M₁₅+ series, Chemical Science, 2021, 12, 12819-12826. (PDF) (化学一区TOP)

[2] X. Ma, Y. Tang, G. Ma, L. Qin and Z. Tang*, Controllable synthesis and formation mechanism study of homoleptic alkynyl-protected Au nanoclusters: recent advances, grand  challenges, and great opportunities, Nanoscale,  2021, 13, 602-614. (PDF) (材料科学二区)

[3] X. Ma, Z. Tang*, L. Qin, J. Peng, L. Li and S. Chen*, Unravelling the formation mechanism of  alkynyl protected gold clusters: a case study of phenylacetylene stabilized Au₁₄₄ molecules, Nanoscale, 2020, 12, 2980-2986. (PDF)  (材料科学二区)

[4] X. Ma, G. Ma, L. Qin, G. Chen, S. Chen* and Z. Tang*, A synchronous nucleation and passivation strategy for controllable synthesis of Au₃₆(PA)₂₄: unveiling the formation process and the role of Au₂₂(PA)₁₈ intermediate, Science China-Chemistry, 2020, 63, 1777-1784. (PDF)  (化学一区TOP)

[5] X. Ma, F. Tao, Y. Zhang, T. Li, F. M. Raymo and Y. Cui*, Detection of nitroaromatic explosives by a 3D hyperbranched σ–π conjugated polymer based on a POSS scaffold, Journal of Materials Chemistry A, 2017, 5, 14343-14354. (PDF)  (材料科学二区TOP)

[6] X. Ma, Y. Cui*, Y. Ding, F. Tao, B. Zheng, R. Yu and W. Huang, 2D hyperbranched conjugated polymer for detecting TNT with excellent exciton migration, Sensors and Actuators B-Chemical, 2017, 238, 48-57. (PDF)  (化学一区TOP)

[7] X. Ma, D. Wang, Y. Cui*, F. Tao, Y. Wang and T. Li, A novel hydrophilic conjugated polymer containing hydroxyl groups: Syntheses and sensing performance for NACs in aqueous solution, Sensors and Actuators B-Chemical, 2017, 251, 851-857. (PDF)  (化学一区TOP)