马超云  副教授、博士、硕士生导师

专业：化学工程与技术  

研究方向：二氧化碳（光/热/电）催化转化、生物传感

联系方式（邮箱）：mcy_xju_edu@163.com

办公室：博达校区化工学院B207

教育经历：

2014.09-2018.06 吕梁学院，学士

2018.09-2023.06 石河子大学，博士（硕博连读）

工作经历：

2023.06-至今 新疆大学化工学院

主讲课程：

本科生：《化工原理》、《化工原理实验》

研究内容：

1. 碳基催化剂的制备与构效关系

2. 发光材料的制备及其应用

主持科研项目：

1.国家自然科学基金青年基金项目（C类）（22508331），2026.1.1-2028.12.31，30万，主持。

2. 自治区“天池博士”项目，2025.1.1-2027.12.31，60万，主持。

3. 自治区基本科研业务费项目，2025.1.1-2027.12.31，5万元，主持。

代表性成果：

1. Zhang, X.; Jia, S.; Ma, J*.; Ma, C**.; Yu, X.; Wang, X.; Lin, X.; Cobalt-doped g-C₃N₄/CoO S-scheme heterojunction enabling efficient photothermal CO₂ conversion via synergistic charge transfer and reaction pathway regulation. Journal of Colloid and Interface Science, 2025, 702 (2)138996.

2. Liu, Y.; Ma, J*.; Meng, Z.; Ma, C**.; Xu, R.; Dual-regulated cascade catalysis via spatial synergy and electronic coupling for efficient oxygen reduction reaction. Journal of Colloid and Interface Science, 2025, 699 (2),138212.

3. Liu, Y.; Ma, J*.; Jia, S.; Ma, C**.; Wu, P.; Yang, L.; Shen, L.; Zhang, G., Low-Pt coupled with atomic Ni-N₅ doped carbon dots as efficient ORR/HER bifunctional catalyst. International Journal of Hydrogen Energy 2025, 100, 378-387.

4. Zhao C^#.; Ma C^#.; Zhang X.; Sun J.; Hong C*.; Li Q**.; Luo D***.; Synergistic Electric Field-Driven Dual Charge Transfer in Graphitic Carbon Nitride/SnO_2-x Heterojunctions for Enhanced Electrochemiluminescence Biosensing[J]. Analytical Chemistry, 2025.（共一）

5. Zhao, C.; Ma, C*.; Jia, S.; Wang, M.; Jiang, M.; Ma, J.; Yu, H.; Hong, C**., Ultrathin-N_2C-Deficient Carbon Nitride for Stabilized Enhancement of Electrochemiluminescence. Small 2024, 20 (49), 2403138.

6. Zhao, C.; Ma, C*.; Wang, M.; Lai, W.; Hong, C**., Electrochemiluminescence Enhancement and Passivation Mitigation in Carbon Nitride Semiconductors via an Integrated Ternary Heterostructure Strategy. Small 2024, 20 (26), 2310476.

7. Yang, L.; Ma, J*.; Liu, Y.; Ma, C**.; Yu, X.; Chen, Z., Low platinum loading electrocatalyst supported on a carrier derived from carbon dots doped ZIF-67 for the ORR and zinc–air batteries. Nanoscale 2024, 16 (10), 5433-5440.

8. Li, J.; Zhao, C.; Lai, W.; Li, P.; Jiang, M.; Wang, M.; Ma, C*.; Hong, C**., A self-reinforced luminescence signal amplification strategy to construct electrochemiluminescence immunosensor for carcinoembryonic antigen sensing. Microchemical Journal 2024, 206, 111263.

9. Wang, M^#.; Ma, C^#.; Jiang, M.; Guo, M.; Zhao, C.; Ren, H.; Lai, W.; Li, Z.; Hong, C*.; Yu, F**., Construction of a Three-Dimensional-Printed Immunosensing Platform Based on Smartphone Photothermal Signal Integration. Analytical Chemistry 2024, 96 (37), 14989-14997.

10. Zhao, C^#.; Ma, C^#.; Zhang, F.; Li, W.; Hong, C*.; Bao, F**., Co₃O₄/NiCo₂O₄ heterojunction as oxygen evolution reaction catalyst for efficient luminol anode electrochemiluminescence. Journal of Colloid and Interface Science 2024, 659, 728-738.

11. Ma, C.; Zhao, C.; Hong, C*.; Qi, Y**., Ph–CN as a novel ECL emitter combining catalysis and luminescence in one. Sensors and Actuators B: Chemical 2023, 375, 132921.

12. Zhao, C^#.; Ma, C^#.; Zhang, F^#.; Li, W.; Hong, C*.; Qi, Y**., Two–dimensional metal–organic framework nanosheets: An efficient two–electron oxygen reduction reaction electrocatalyst for boosting cathodic luminol electrochemiluminescence. Chemical Engineering Journal 2023, 466, 143156.

13. Zhao, C^#.; Ma, C^#.; Zhang, F^#.; Lai, W.; Hong, C*.; Qi, Y**., Preparation of oxidized acetylene black by high-temperature calcination for luminol efficient cathodic electrochemiluminescence. Journal of Colloid and Interface Science 2023, 645, 997-1004.

14. Ma, C.; Zhao, C.; Hong, C*.; Zhang, L.; Chen, S**.; Qi, Y., Temperature Platform Constructed Using a Cu₂O–Cu₃₁S₁₆ Photothermal Conversion System for the Simple Quantitative Analysis of Tumor Markers. ACS Sustainable Chemistry & Engineering 2022, 10 (26), 8517-8525.

15. Ma, C.; Zhao, C.; Hong, C*.; Qi, Y**., Smart activatable fluorescent probe provides high-quality signal-to-noise ratio and detection limits for electrochemiluminescence. Sensors and Actuators B: Chemical 2022, 356, 131363.

16. Ma, C.; Zhao, C.; Zhang, L.; Li, W.; Song, Y.; Chen, S.; Hong, C*.; Qi, Y**., Construction of a “Signal On” Electrochemical Immunosensor Based on Light Induction. ACS Sustainable Chemistry & Engineering 2021, 9 (41), 13788-13797.

17. Ma, C.; Zhao, C.; Li, W.; Song, Y.; Hong, C*.; Qiao, X**., Sandwich-type electrochemical immunosensor constructed using three-dimensional lamellar stacked CoS₂@C hollow nanotubes prepared by template-free method to detect carcinoembryonic antigen. Analytica Chimica Acta 2019, 1088, 54-62.

（更新于2025年11月24日）