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宋品


宋品,博士,教授招生专业(物理化学)

办公室:花津校区学苑北楼11号楼501

实验室:花津校区学苑北楼11号楼502

 Email: songpin@ahnu.edu.cn

实验室介绍:https://faculty.ustc.edu.cn/xiongyujie/.

个人简历

中共党员,安徽省青年人才计划入选者,合肥市级领军人才,芜湖市重大行政决策咨询论证智库专家,中国微米纳米技术学会高级会员,中国化工学会专业会员,先后在国家纳米科学中心、合肥工业大学、新加坡南洋理工大学进行相关研究工作,长期从事新型二维材料的合成及其在电化学储能光催化反应工程领域中的应用研究等2021年加入到熊宇杰教授团队,迄今已在Nat. Commun.J. Am. Chem. Soc.、Angew. Chem. Int. Ed.Adv. Mater.、Adv. Energy Mater.、ACS NanoACS Mater. Lett.Appl. Catal. BNano EnergyACS Catal、Chem. Eng. J.、J. Hazard. Mater.、Biosens. Bioelectron.国际专业期刊上发表SCI论文60余篇,以第一(含共一)/通讯作者公开发表SCI论文25篇。已授权10项中国专利,部分研究成果与合作企业实现了技术转化,获得2022年度“赢在南京”海外人才创业大赛优胜奖。

研究方向

二维材料的设计与开发

环境催化(光催化分离膜/光催化降解有机污染物)

能源催化(光催化制氢/二氧化碳还原/固氮合成氨等)

3D打印新型光催化剂技术

理论计算与催化机理研究

基金项目

企业委托研发项目(主持,在研)

先进能源材料化学教育部重点实验室(南开大学)开放基金项目(主持,在研)

先进功能材料与器件安徽省重点实验室自主创新专项项目(主持,在研)

分子基材料省级重点实验室开放基金项目(主持,在研)

安徽师范大学引进人才科研资助计划项目(主持,在研)

安徽省海外引才计划青年项目(主持,在研)

安徽省教育厅自然科学基金重大项目(主持,在研)

安徽省科技厅自然科学基金面上项目(主持,在研)

安徽省科技厅重点研究与开发计划项目(主持,在研)

国家自然科学基金委联合基金项目(主持,在研)

国家自然科学基金委面上项目(参与,结题)

国家自然科学基金委重点项目(参与,结题)

国家自然科学基金委国际(地区)合作与交流项目(参与,结题)

学术兼职

Green Carbon杂志青年编委

Nano Materials Science杂志青年编委

Frontiers in Materials杂志客座编委

担任Adv. Mater., Adv. Funct. Mater., ACS Catal., Appl. Catal. B, Chem. Eng. J., J. Hazard. Mater., J. Mater. Chem. A., ACS Appl. Mater. Interfaces, Sep. Purif. Technol., Adv. Fiber. Mater., Environ. Sci. Nano., Langmuir等期刊审稿人

部分代表性论文

1. High Active 3D composites for Flow-Through Photocatalytic Membrane Reactor Towards Water Micropollutant Removal. ACS Mater. Lett., 2024, 6, 427. (Cover Paper)

2. Coupling of BiOCl Ultrathin Nanosheets with Carbon Quantum Dots for Enhanced Photocatalytic Performance. Trans. Tianjin Univ., 2024, DOI:10.1007/s12209-024-00391-4(Cover Paper)

3. Incorporating Carbon Quantum Dots into Phosphotungstic Acid Ionic Liquid Materials for Enhanced Catalytic Oxidative Desulfurization. Fuel, 2024, 365, 131168.

4. Design of Bi4O5Br2/g-C3N4 Heterojunction for Efficient Photocatalytic Removal of Persistent Organic Pollutants from Water. EcoEnergy, 2023, 1, 197.

5. Super Hydrophilic-Electrons Acceptor Regulated Rutile TiO2 Nanorods for Promoting Photocatalytic H2 Evolution. Appl. Surf. Sci.2023, 623, 157098.

6. Indium-Based Atomic Layers for Photoreduction Reactions: Design, Synthesis and Performance Optimization. Sep. Purif. Technol., 2023, 324, 124514.

7. Progress of Ultrafine Noble Metal Nanocatalysts Regulated by Confining Engineering for Water Electrolysis. J. Electroanal. Chem., 2023, 950, 117900.

8. Biomass-Derived Hard Carbon Microtubes with Tunable Apertures for High-Performance Sodium-Ion Batteries. Nano Res., 2023, 16, 4874.

9. Visualizing Catalytic Dynamics Process via Synchrotron Radiation Multi-Techniques. Adv. Mater., 2023, 352205346.

10. Supramolecular Confinement Pyrolysis to Carbon-Supported Mo Nanostructures Spanning Four Scales for Hydroquinone Determination. J. Hazard. Mater., 2022, 437, 129327.

11. Stacked Plasmonic Metamaterial with Strong Localized Electric Field Enables Highly Efficient Broadband Light-Driven CO2 Hydrogenation. Adv. Mater., 2022, 34, 2202367.

12. Over 70% Faradaic Efficiency for CO2 Electroreduction to Ethanol Enabled by K Dopant-Tuned Cu Sites-Intermediates Interaction. Angew. Chem. Int. Ed.2022, 61, e202209268.

13. Cobalt Nitride as a Novel Cocatalyst to Boost Photocatalytic CO2 Reduction. Nano Energy, 2021, 79, 105429.

14. A Core-Shell Structured Metal-Organic Frameworks-Derived Porous Carbon Nanowires as a Superior Anode for Alkaline Metal-Ion Batteries. Appl. Surf. Sci.2021, 541, 148473.

15. Machine Learning Driven Synthesis of Few-Layered WTe2 With Geometrical Control. J. Am. Chem. Soc., 2021, 143, 18103.

16. Carbon Microtube Aerogel Derived from Kapok Fiber: An Efficient and Recyclable Sorbent for Oils and Organic Solvents. ACS Nano, 2020, 14, 595.

17. Bismuth-Rich Bismuth Oxyhalides: A New Opportunity to Trigger High-Efficiency Photocatalysis. J. Mater. Chem. A, 2020, 8, 21434.

18. Atomic-Level Active Sites Steering in Ultrathin Photocatalysts to Trigger High Efficiency Nitrogen Fixation. Chem. Eng. J., 2020, 402, 126208.

19. Molecular-Scale Cage-Confinement Pyrolysis Route to Size-Controlled Molybdenum Carbide Nanoparticles for Electrochemical Sensor. Biosens. Bioelectron., 2020, 165, 112373.

20. Strain-Engineering of Bi12O17Br2 Nanotubes for Boosting Photothermal CO2 Reduction. ACS Mater. Lett., 2020, 2, 1025.

21. Reusable Graphitic Carbon Nitride Nanosheet-Based Aerogels as Sorbents for Oils and Organic Solvents. ACS Appl. Nano Mater., 2020, 3, 8176.

22. Ultrathin Structured Photocatalysts: A Versatile Platform for CO2 Reduction. Appl. Catal. B, 2019, 256, 117788.

23. Bismuth Vacancy Tuned Bismuth Oxybromide Ultrathin Nanosheets Towards Photocatalytic CO2 Reduction. ACS Appl. Mater. Interfaces, 2019, 11, 30786.

24. Freestanding Ultrathin Bismuth-Based Materials for Diversified Photocatalytic Applications. J. Mater. Chem. A, 2019, 7, 25203.

25. Self-Healing and Superstretchable Conductors from Hierarchical Nanowire Assemblies. Nat. Commun., 2018, 9, 2786.

热忱欢迎来自化学、材料等领域的博士生、硕士生和本科生加入我们团队,加入安徽省碳中和工程研究中心!



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