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  • ¡¡¡¡References:

    ¡¡¡¡1. Abstiens, K., et al., Interaction of functionalized nanoparticles with serum proteins and its impact on colloidal stability and cargo leaching, Soft matter., 2019.

    ¡¡¡¡2. Yu, H., et al., Enzyme sensitive, surface engineered nanoparticles for enhanced delivery of camptothecin, Journal of Controlled Release, 2015, 216, P. 111-120.

    ¡¡¡¡3. Sunoqrot, S., et al., Prolonged blood circulation and enhanced tumor accumulation of folate-targeted dendrimer-polymer hybrid nanoparticles, Journal of Controlled Release, 2014, 191, P. 115-122.

    ¡¡¡¡4. Matini, T., Synthesis and characterization of variable conformation pH responsive block co-polymers for nucleic acid delivery and targeted cell entry, Polym. Chem., 2014, 5, 1626

    ¡¡¡¡5. Sunoqrot, S., A Multi-Scale Hybrid Nanoparticle Platform with Controlled Cellular Interaction and Targeting Kinetics ,University of Illinois at Chicago, 2013, p:74, 109.

    ¡¡¡¡6. Sunoqrot, S., et al., In Vitro Evaluation of Dendrimer-Polymer Hybrid Nanoparticles on Their Controlled Cellular Targeting Kinetics, Mol Pharm., 2013, 10(6): 2157¨C2166.

           7.Lang, J., et al., Towards a Switchable Nanoparticle Behavior Using Inverse Electron-Demand Diels-Alder Chemistry and Ectoenzyme-Based Ligand Activation, European Journal of Pharmaceutical Sciences, 2024.

           8. Yuan, H., et al., Linoleic acid co-administration promotes oral delivery of exenatide-loaded butyrate-decorated nanocapsules, Journal of Controlled Release, 382, 2025.

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