代表性工作:
[1] F. Wang, J. W. Liu*, A stable lipid/TiO2 interface with headgroup inversed phosphocholine and a comparison with SiO2. Journal of the American Chemical Society, 2015, 137, 11736-11742.
[2] F. Wang, X. H. Zhang, Y. B. Liu, Z. Y. Lin, B. W. Liu, J. W. Liu*, Profiling metal oxides with lipids: Magnetic liposomal nanoparticles displaying DNA and proteins. Angewandte Chemie International Edition, 2016, 55, 12063-12067.
[3] Y. Yan♯, X. Zhu♯, Y. Yu♯, C. Li, Z. Zhang*, F. Wang*, Nanotechnology strategies for plant genetic engineering. Advanced Materials, 2022, 34, 2106945.
[4] F. Wang, B. W. Liu, A. C. F. Ip, J. W. Liu*, Orthogonal adsorption onto nano-graphene oxide using different intermolecular forces for multiplexed delivery. Advanced Materials, 2013, 25, 4087-4092.
[5] W. Z. Song, X. X. Wang, S. L. Nong, M. R. Wang, S. M. Kang, F. Wang*, L. Xu, D-cysteine-derived carbon dots for selective discrimination, imaging, and synergistic elimination of Gram-positive bacteria and fungi. Advanced Functional Materials 2024, doi: 10.1002/adfm.202402761.
[6] Y. Yan♯, M. Ni♯, F. Wang♯, Y. Yu, X. Gong, Y. Huang, W. Tao, C. Li*, F. Wang*, Metal-organic framework-based biosensor for detecting hydrogen peroxide in plants through color-to-thermal signal conversion, ACS Nano, 2022, 16, 15175-15187.
[7] Z. F. Wang,♯ Y. Yan,♯ C. Li,♯ Y. Yu, S. Cheng, S. Chen, X. J. Zhu, L. P. Sun, W. Tao, J. W. Liu, F. Wang*, Fluidity-guided assembly of Au@Pt on liposomes as a catalase-powered nanomotor for effective cell uptake in cancer cells and plant leaves, ACS Nano, 2022, 16, 9019-9030.
[8] Y. C. Ma♯, Y. X. Zhang♯, X. Q. Li♯, Y. Y. Zhao, M. Li, W. Jiang, X. F. Tang, J. X. Dou, L. G. Lu, F. Wang*, Y. C. Wang*, Near-infrared II phototherapy induces deep tissue immunogenic cell death and potentiates cancer immunotherapy. ACS Nano, 2019, 13, 11967-11980.
[9] F. Wang♯, Y. C. Wang♯, S. Dou, M. H. Xiong, T. M. Sun, J. Wang*, Doxorubicin-tethered responsive gold nanoparticles facilitate intracellular drug delivery for overcoming multidrug resistance in cancer cells. ACS Nano, 2011, 5, 3679-3692.
[10] L. Xu*, P. P. Deng, W. Z. Song, M. L. Liu, M. R. Wang, Y. Yu, F. Wang*, An AIE-active cyclometalated Iridium(III) photosensitizer for selective discrimination, imaging, and synergistic elimination of gram-positive bacteria. ACS Materials Letters 2023, 5, 162-171.
[11] F. Wang, J. W. Liu*, Liposome supported metal oxide nanoparticles: interaction mechanism, light controlled content release and intracellular delivery. Small, 2014, 10, 3927-3931.
[12] W. Q. Li♯, F. Wang♯, Z. M. Liu, Y. C. Wang, J. Wang*, F. Sun*, Gold nanoparticles elevate plasma testosterone levels in male mice without affecting fertility. Small, 2013, 9, 1708-1714.
[13] H. Li♯, M. L. Li♯, Y. C. Yang, F. Wang, F. Wang*, C. Li*, Aptamer-Linked CRISPR/Cas12a-Based Immunoassay. Analytical Chemistry, 2021, 93, 3209-3216.
[14] F. Wang, B. W. Liu, P. J. J. Huang, J. W. Liu*, Rationally designed nucleobase and nucleotide coordinated nanoparticles for selective DNA adsorption and detection. Analytical Chemistry, 2013, 85, 12144-12151.
[15] J. Y. Huang♯, M. Jian♯, S. H. Chen♯, S. Y. Zhang, T. Liu*, C. Li*, F. Wang*, A soft metal-polyphenol capsule-based ultrasensitive immunoassay for electrochemical detection of Epstein-Barr (EB) virus infection. Biosensors and Bioelectronics, 2020, 143, 112310.
[16] H. Wang, H. Li, Y. Huang, M. H. Xiong, F. Wang*, C. Li*, A label-free electrochemical biosensor for highly sensitive detection of gliotoxin based on DNA nanostructure/MXene nanocomplexes. Biosensors and Bioelectronics, 2019, 142, 111531.