个人基本信息:
岐少鹏,男 ,博士,2023.03-2025.7 中国科学技术大学 - 博士后,合作导师:熊宇杰、龙冉教授;2017.03-2022.12,东南大学材料物理与化学博士。
所属系:
电子信息工程
主讲课程:
大学物理
研究领域:
等离激元光催化
教科研项目:
1. 中国海洋石油集团有限公司“十四五”重大科技项目“二氧化碳光电催化技术研究”(2023.03-2024.10)
①负责等离激元-简并半导体催化复合体系的结构设计、制备、表征以及光催化 CO2还原性能评估。
②负责基于等离激元活化 CO2 催化体系的规模放大装置设计方案研究,包括:催化剂材料放大合成工艺研发、反应工艺设计以及规模放大光催化反应器设计。
2. 主持基金:中国博士后科学基金第 76 批面上资助(2024M763152)
3. “钼基等离激元催化剂全光谱驱动 CO2催化性能研究” (2025.01-2025)
代表性论文/著作:
1. Qi S., Liu, G., Zhang K., Chen, J., Zhao, Y., Lou, Y.*. Colloidal Synthesis of Plasmonic Ultrathin Transition-Metal Oxide Nanosheets, ACS Sustainable Chemistry & Engineering, 2022, 10 (29), 9565-9572. (IF: 7.1; 中科院分区: 1 区; 第一作者)
2. Qi S., Liu, G., Chen, J., Lou, Y.*, Zhao, Y.*. Surface Coordination Layer to Enhance the Stability of Plasmonic Cu Nanoparticles, Journal of Physical Chemistry C, 2021, 125 (50), 27624-27630. (IF: 3.3; 中科院分区: 3 区; 第一作者)
3. Qi S., Liu, G., Tan, L., Chen, J., Lou, Y.*, Zhao, Y.*. Top-Down Fabrication of Colloidal Plasmonic MoO3-x Nanocrystals via Solution Chemistry Hydrogenation, Chemical Communications, 2020, 56 (35), 4816-4819. (IF: 4.3; 中科院分区: 2 区; 第一作者)
4. Qi S., Zhao, B., Zhou, B., Jiang X.*. An Electrochemical Immunosensor Based on Pristine Graphene for Rapid Determination of Ractopamine, Chemical Physics Letters, 2017, 685, 146-150. (IF: 2.8; 中科院分区: 3 区; 第一作者)
5. Qi S., Zhao B, Tang H, Jiang X*. Determination of Ascorbic Acid, Dopamine, and Uric Acid by A Novel Electrochemical Sensor Based on Pristine Graphene, Electrochimica Acta. 2015; 161, 395-402. (IF: 5.5; 中科院分区: 2 区; 第一作者)
6. Liu G., Qi S., Chen J., Lou Y.*, Zhao Y.*, Burda C.*, Cu-Sb-S Ternary Semiconductor Nanoparticle Plasmonics, Nano Letters, 2021, 21 (6), 2610-2617. (IF: 9.6; 中科院分区: 2 区)
7. Liu G., Kolodziej C., Jin R., Qi S., Lou Y.*, Chen J., Dechen Jiang*, Zhao Y.*, Burda C.*. MoS2-Stratified CdS-Cu2-xS Core-Shell Nanorods for Highly-Efficient Photocatalytic Hydrogen Production, ACS Nano, 2020, 14 (5), 5468-5479. (IF: 15.8; 中科院分区: 1 区)
8. Qi Y., Qi S., Tan L., Liu G., Yang J., Liu B., Lou Y.*, Chen J.*, Zhao Y.*. Partially Cu Ion Exchange Induced Triangle Hexagonal Mn0.45Cu0.05Cd0.5S Nanocrystal for Enhanced Photocatalytic Hydrogen Evolution, Chemical Communications, 2020, 56 (58), 8127-8130. (IF: 4.3; 中科院分区: 2 区)
9. Lv K., Qi S., Liu G., Lou Y.*, Chen J.*, Zhao Y.*. Lead-Free Silver-Antimony Halide Double Perovskite Quantum Dots with Superior Blue Photoluminescence, Chemical Communications, 2019, 55 (98), 14741-14744. (IF: 4.3; 中科院分区: 2区)
10. Li L., Liu G., Qi S., Liu X., Gu L., Lou Y. *, Chen J.*, Zhao Y.*. Highly Efficient Colloidal MnxCd1-xS Solid Solution Nanorods for Photocatalytic Hydrogen Generation, Journal of Materials Chemistry A, 2018, 6, 23683. (IF: 14.511; 中科院分区: 1 区)
11. Lou Y.*, He J., Liu G., Qi S., Cheng L., Chen J.,* Zhao Y.*, Zhu J.*. Efficient Hydrogen Evolution from Hydrolysis of Ammonia Borane using Bilateral-like WO3-x Nanorods Coupled with Ni2P Nanoparticles, Chemical Communications, 2018, 54 (48), 6188-6191. (IF: 4.3; 中科院分区: 2 区)
12. Hou B., Liu H., Qi S., Zhu Y., Zhou B. Jiang X., Zhu L. Preparation of Pristine Graphene in Ethanol Assisted by Organic Salts for Nonenzymatic Detection of Hydrogen Peroxide, Journal of Colloid and Interface Science, 2018, 510, 103-110. (IF: 9.4; 中科院分区: 1 区)
13. Du W., Qi S., Zhu Y., Sun P., Zhu L., Jiang X.. A Simple and Practical Route to Prepare Useable Pristine Graphene for Electrochemical Applications, Chemical Engineering Journal. 2015, 262, 658-664. (IF: 13.4; 中科院分区: 1 区)
14. Du W., Qi S, Zhou B., Sun P., Zhu L., Jiang X.. A Surfactant-Free Water-Processable All-Carbon Composite and Its Application to Supercapacitor, Electrochimica Acta. 2014, 146, 353-358. (IF: 5.5; 中科院分区: 2 区; JCR 分区: Q1)
