研究领域:
材料、物理、化学、光学、生物医学等多学科交叉
高性能表面增强拉曼散射(SERS)基底制备及生物医学应用。
新型纳米材料的生物医学应用(检测、成像和治疗)。
时域有限差分法模拟计算,第一性原理计算。
教育背景:
2011.8-2015.7 南洋理工大学 | 材料科学与工程 | 博士学位(导师,李述周)
2006.9-2010.6 南京航空航天大学 | 材料科学与工程 | 学士学位
工作经历:
2020.3 - 至今 北京航空航天大学 | 医工交叉创新研究院 | 副研究员
2016.11-2019.12 北京航空航天大学 | 化学学院 | 博士后(合作导师:郭林)
2015.8-2016.7 南洋理工大学 | 材料科学与工程学院 | 博士后(合作导师:李述周)
主持或参加科研项目:
1. 国家自然科学基金青年基金,尺寸、形貌可控的晶体/非晶异质结构及其SERS性能研究,2020.01-2022.12,25万元,在研,主持。
2. 国家自然科学基金面上项目,二维非金属纳米材料的晶体构型、构象的可控制备及其SERS效应的研究,2019.01-2022.12,68万元,在研,参加。
3. 国家自然科学基金青年项目,组分可调的合金纳米结构的可控制备及其SERS效应在分子检测方面的应用研究,2019.01-2021.12,25万元,在研,参加。
4. 中国博士后科学基金特别资助,C-N杂化二维有机半导体的组分可控制备及SERS性能研究,2019.06-2019.12,18万元,结题,主持。
5. 中国博士后科学基金面上资助,二维有机半导体纳米材料SERS化学增强机理研究,2018.05-2019.12,5万元,结题,主持。
代表论文:
[1] C. Qu, N. Ren, S. Zhang, Y. Li, S. Meng, X. Li, S. Wang, D. Liang*, A. Li *. Degradation of triclosan by anodic oxidation/in-situ peroxone process: Kinetics, pathway and reaction mechanism. Chemosphere. 2021, 272, 129453.
[2] A. Li#, J. Yu#, J. Lin#, M. Chen, X. Wang*, L. Guo*, Increased O 2p State Density Enabling Significant Photoinduced Charge Transfer for Surface-Enhanced Raman Scattering of Amorphous Zn(OH)2. J. Phys. Chem. Lett., 2020, 11, 1859-1866.
[3] S. Shi#, A. Li#, R. Huang, J. Yu, S. Li*, W. Qi, Z. He, R. Su*. In situ growth of Au-Ag bimetallic nanorings on optical fibers for enhanced plasmonic sensing. J. Mater. Chem. C. 2020, 8, 7552-7560.
[4] J. Lin#, W. Ren#, A. Li#, C. Yao, T. Chen, X. Ma, X. Wang*, A. Wu*, Crystal-Amorphous Core-Shell Structure Synergistically Enabling TiO2 Nanoparticles' Remarkable SERS Sensitivity for Cancer Cell Imaging. ACS. Appl. Mater. Interfaces, 2020, 12, 4204-4211.
[5] C. Lu#, A. Li#, T. Zhai, C. Niu, H. Duan, L. Guo, W. Zhou*, Interface Design Based on Ti3C2 MXene Atomic Layers of Advanced Battery-type Material for Supercapacitors. Energy Storage Mater., 2020, 26, 472-482.
[6] Y. Yan#, A. Li#, C. Lu#, T. Zhai, S. Lu, W. Li, W. Zhou*. Double-layered yolk-shell microspheres with NiCo2S4-Ni9S8-C heterointerfaces as advanced battery-type electrode for hybrid supercapacitors. Chem. Eng. J. 2020, 396, 125316.
[7] A. Li, X. Wang*, S. Li*, L. Guo*, Tunable Subradiant Mode in Free-Standing Metallic Nanohole Arrays for High-Performance Plasmofluidic Sensing. J. Phys. Chem. C, 2019, 123, 25394-25401.
[8] A. Li, J. Lin, Z. Huang, X. Wang*, L. Guo*, Surface Enhanced Raman Spectroscopy on Amorphous Semiconducting Rhodium Sulfide Microbowls Substrates. iScience, 2018, 10, 1-10.
[9] A. Li, X. Lim, L. Guo*, S. Li*, Quantitative Investigation on the Critical Thickness of the Dielectric Shell for Metallic Nanoparticles Determined by the Plasmon Decay Length. Nanotechnology, 2018, 29, 165501.
[10] T. Liu#, A. Li#, C. Wang#, W. Zhou*, S. Liu, L. Guo, Interfacial Electron Transfer of Ni2P-NiP2 Polymorphs Inducing Enhanced Electrochemical Properties. Adv. Mater., 2018, 30, 1803590.
[11] X. Wang#, G. Ma#, A. Li#, J. Yu, J. Lin, Z. Yang, A. Li, X. Han, L. Guo*, Composition-adjustable Ag-Au Substitutional Alloy Microcages Enabling Tunable Plasmon Resonance for Ultrasensitive SERS. Chem. Sci., 2018, 9, 4009-4015.
[12] K. Chen#, S. Zhang#, A. Li#, X. Tang, J. Ding, L. Li*, L. Guo*, Bioinspired Interfacial Chelating-Like Reinforcement Strategy toward Mechanically Enhanced Lamellar Materials. ACS Nano, 2018, 12, 4269-4279.
[13] A. Li, S. K. Srivastava, S. Li*, I. Abdulhalim*, Engineering the Hot Spots in Squared Arrays of Gold Nanoparticles on a Silver Film. Nanoscale, 2016, 8, 15658-15664.
[14] S.K. Srivastava#, A. Li#, S. Li*, I. Abdulhalim*, Optimal Interparticle Gap for Ultrahigh Field Enhancement by LSP Excitation via ESPs and Confirmation using SERS. J. Phys. Chem. C, 2016, 120, 28735-28742.
[15] A. Li, S. Isaacs, I. Abdulhalim*, S. Li*, Ultrahigh Enhancement of Electromagnetic Fields by Exciting Localized with Extended Surface Plasmons. J. Phys. Chem. C, 2015, 119, 19382-19389.
[16] A. Li, and S. Li*, Large-volume Hot Spots in Gold Spiky Nanoparticle Dimers for High-Performance Surface-Enhanced Spectroscopy. Nanoscale, 2014, 6, 12921-12928.
招生:
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