[1] B. Getiren, Z. Ciplak, C. Gokalp and N. Yildiz, NIR-responsive Fe3O4@PPy nanocomposite for efficient potential use in photothermal therapy, Journal of Applied Polymer Science. 137 (2020) e49343.
[2] Q. Zhang, W. Wang, M. Zhang, F. Wu, T. Zheng, B. Sheng, Y. Liu, J. Shen, N. Zhou and Y. Sun, A theranostic nanocomposite with integrated black phosphorus nanosheet, Fe3O4@MnO2-doped upconversion nanoparticles and chlorin for simultaneous multimodal imaging, highly efficient photodynamic and photothermal therapy, Chemical Engineering Journal. 391 (2020) 123525.
[3] G. Guan, X. Wang, B. Li, W. Zhang, Z. Cui, X. Lu, R. Zou and J. Hu, "Transformed" Fe3S4 tetragonal nanosheets: a high-efficiency and body-clearable agent for magnetic resonance imaging guided photothermal and chemodynamic synergistic therapy, Nanoscale. 10 (2018) 17902-17911.
[4] L.-S. Lin, T. Huang, J. Song, X.-Y. Ou, Z. Wang, H. Deng, R. Tian, Y. Liu, J.-F. Wang, Y. Liu, G. Yu, Z. Zhou, S. Wang, G. Niu, H.-H. Yang and X. Chen, Synthesis of Copper Peroxide Nanodots for H2O2 Self-Supplying Chemodynamic Therapy, Journal of the American Chemical Society. 141 (2019) 9937-9945.
[5] Z. Tang, Y. Liu, M. He and W. Bu, Chemodynamic Therapy: Tumour Microenvironment-Mediated Fenton and Fenton-like Reactions, Angewandte Chemie-International Edition. 58 (2019) 946-956.
[6] L. Ga, J. Ai and Y. Wang, AS1411-Templated Fluorescent Cu Nanomaterial's Synthesis and Its Application to Detecting Melamine, Journal of Chemistry. 2020 (2020) 4067578.
[7] R. Sun, L. Yin, S. Zhang, L. He, X. Cheng, A. Wang, H. Xia and H. Shi, Simple Light-Triggered Fluorescent Labeling of Silica Nanoparticles for Cellular Imaging Applications, Chemistry-a European Journal. 23 (2017) 13893-13896.
[8] X. Hou, X. Wang, R. Liu, H. Zhang, X. Liu and Y. Zhang, Facile synthesis of multifunctional Fe3O4@SiO(2)n@Au magneto-plasmonic nanoparticles for MR/CT dual imaging and photothermal therapy, Rsc Advances. 7 (2017) 18844-18850.
[9] C. Li, T. Chen, I. Ocsoy, G. Zhu, E. Yasun, M. You, C. Wu, J. Zheng, E. Song, C. Z. Huang and W. Tan, Gold- Coated Fe 3 O 4 Nanoroses with Five Unique Functions for Cancer Cell Targeting, Imaging, and Therapy, Advanced Functional Materials. 24 (2014) 1772-1780.
[10] Y. Li, X. Liu, X. Nie, W. Yang, Y. Wang, R. Yu and J. Shui, Multifunctional Organic-Inorganic Hybrid Aerogel for Self-Cleaning, Heat-Insulating, and Highly Efficient Microwave Absorbing Material, Advanced Functional Materials. 29 (2019) 1807624.
[11] W. Wang, C. Hao, M. Sun, L. Xu, C. Xu and H. Kuang, Spiky Fe3O4@Au Supraparticles for Multimodal In Vivo Imaging, Advanced Functional Materials. 28 (2018) 1800310.
[12] Y. Hu, L. Meng, L. Niu and Q. Lu, Facile Synthesis of Superparamagnetic Fe3O4@polyphosphazene@Au Shells for Magnetic Resonance Imaging and Photothermal Therapy, Acs Applied Materials & Interfaces. 5 (2013) 4586-4591.
[13] D. Liu, L. Ma, L. Liu, L. Wang, Y. Liu, Q. Jia, Q. Guo, G. Zhang and J. Zhou, Polydopamine-Encapsulated Fe3O4 with an Adsorbed HSP70 Inhibitor for Improved Photothermal Inactivation of Bacteria, Acs Applied Materials & Interfaces. 8 (2016) 24455-24462.
[14] Y. Wang, X. Pang, J. Wang, Y. Cheng, Y. Song, Q. Sun, Q. You, F. Tan, J. Li and N. Li, Magnetically-targeted and near infrared fluorescence/magnetic resonance/photoacoustic imaging-guided combinational anti-tumor phototherapy based on polydopamine-capped magnetic Prussian blue nanoparticles, Journal of Materials Chemistry B. 6 (2018) 2460-2473.
[15] P. Kharey, S. B. Dutta, M. Manikandan, I. A. Palani, S. K. Majumder and S. Gupta, Green synthesis of near-infrared absorbing eugenate capped iron oxide nanoparticles for photothermal application, Nanotechnology. 31 (2020) 095705.
[16] Y. Chen, M. Xu, Y. Guo, K. Tu, W. Wu, J. Wang, X. Tong, W. Wu, L. Qi and D. Shi, Targeted chimera delivery to ovarian cancer cells by heterogeneous gold magnetic nanoparticle, Nanotechnology. 28 (2017) 025101.
[17] M. J. Chen, H. Shen, X. Li and H. F. Liu, Facile synthesis of oil-soluble Fe3O4 nanoparticles based on a phase transfer mechanism, Applied Surface Science. 307 (2014) 306-310.
[18] F. Li, Y. Wang and T. Wang, Synthesis of Fe3O4 particle-chain microwires in applied magnetic field, Journal of Solid State Chemistry. 180 (2007) 1272-1276.
[19] S. Photocatalytic degradation of aniline by magnetic nanomaterials Fe3O4@SiO2@BiOKhammar, N. Bahramifar and H. Younesi, Optimization using the response surface methodology for adsorption of polychlorinated biphenyls (PCBs) from transformer oil by magnetic CMCD-Fe3O4@SiO2 nanoparticles, Materials Chemistry and Physics. 252 (2020) 123195.
[20] M. Shao, F. Ning, J. Zhao, M. Wei, D. G. Evans and X. Duan, Preparation of Fe3O4@SiO2@Layered Double Hydroxide Core-Shell Microspheres for Magnetic Separation of Proteins, Journal of the American Chemical Society. 134 (2012) 1071-1077.
[21] R. H. Yellow emitting Fe3O4/ZnS hybrid: A probe for in-vitro dermatogJin, Z. X. Qiu, W. Cheng and X. L. Jin, Photocatalytic degradation of aniline by magnetic nanomaterials Fe3O4@[email protected] center dot 0.04H(2)O/Ag3PO4, Chemical Physics Letters. 755 (2020) 137747.
[22] J. Kim, H. S. Kim, N. Lee, T. Kim, H. Kim, T. Yu, I. C. Song, W. K. Moon and T. Hyeon, Multifunctional Uniform Nanoparticles Composed of a Magnetite Nanocrystal Core and a Mesoporous Silica Shell for Magnetic Resonance and Fluorescence Imaging and for Drug Delivery, Angewandte Chemie-International Edition. 47 (2008) 8438-8441.
[23] D.-W. Wang, X.-M. Zhu, S.-F. Lee, H.-M. Chan, H.-W. Li, S. K. Kong, J. C. Yu, C. H. K. Cheng, Y.-X. J. Wang and K. C.-F. Leung, Folate-conjugated Fe3O4@SiO2@gold nanorods@mesoporous SiO2 hybrid nanomaterial: a theranostic agent for magnetic resonance imaging and photothermal therapy, Journal of Materials Chemistry B. 1 (2013) 2934-2942.
[24] M. Wang, C.-C. Mi, W.-X. Wang, C.-H. Liu, Y.-F. Wu, Z.-R. Xu, C.-B. Mao and S.-K. Xu, Immunolabeling and NIR-Excited Fluorescent Imaging of HeLa Cells by Using NaYF4:Yb,Er Upconversion Nanoparticles, Acs Nano. 3 (2009) 1580-1586.
[25] Y. Y. Zhao, M. Song, X. G. Yang, J. Yang, C. Y. Du, G. N. Wang, J. W. Yi, G. Y. Shan, D. S. Li, L. Liu, D. M. Yan, Y. X. Li and X. J. Liu, Amorphous Ag2-xCuxS quantum dots: "all-in-one" theranostic nanomedicines for near-infrared fluorescence/photoacoustics dual-modal-imaging-guided photothermal therapy, Chemical Engineering Journal. 399 (2020) 125777.
[26] A. K. H. Cheng, H. Su, A. Wang and H.-Z. Yu, Aptamer-Based Detection of Epithelial Tumor Marker Mucin 1 with Quantum Dot-Based Fluorescence Readout, Analytical Chemistry. 81 (2009) 6130-6139.
[27] G. Jie, L. Wang, J. Yuan and S. Zhang, Versatile Electrochemiluminescence Assays for Cancer Cells Based on Dendrimer/CdSe-ZnS-Quantum Dot Nanoclusters, Analytical Chemistry. 83 (2011) 3873-3880.
[28] H. Nie, M. Li, Q. Li, S. Liang, Y. Tan, L. Sheng, W. Shi and S. X.-A. Zhang, Carbon Dots with Continuously Tunable Full-Color Emission and Their Application in Ratiometric pH Sensing, Chemistry of Materials. 26 (2014) 3104-3112.
[29] N. Yin, L. Liu, P. Li and S. Zhao, Tunable excitation properties of ZnCdS:Mn/ZnS quantum dots for cancer imaging, Luminescence. 33 (2018) 630-635.
[30] N. Q. Yin, P. Wu, T. H. Yang and M. Wang, Preparation and study of a mesoporous silica-coated Fe3O4 photothermal nanoprobe, Rsc Advances. 7 (2017) 9123-9129.
[31] S. N. A. Keivani, M. Naderi and G. Amoabediny, Superparamagnetic plasmonic nanocomposites: Synthesis and characterization studies, Chemical Engineering Journal. 264 (2015) 66-76.
[32] S. Shen, S. Wang, R. Zheng, X. Zhu, X. Jiang, D. Fu and W. Yang, Magnetic nanoparticle clusters for photothermal therapy with near-infrared irradiation, Biomaterials. 39 (2015) 67-74.
[33] J.-M. Lei, X.-L. Xu, L. Liu, N.-Q. Yin and L.-X. Zhu, Preparation and Characterization of Bimodal Magnetofluorescent Nanoprobes for Biomedical Application, Chinese Physics Letters. 29 (2012) 097803.
[34] N.-Q. Yin, L. Liu, J.-M. Lei, Y.-S. Liu, M.-G. Gong, Y.-Z. Wu, L.-X. Zhu and X.-L. Xu, Preparation and characterization of nontoxic magnetic-luminescent nanoprobe, Chinese Physics B. 21 (2012) 116101.