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成果及论文

1.Wan D, Wu YN, Liu YJ, Liu YH, Pan J. Advances in 2,3-Dimethylmaleic Anhydride (DMMA)-Modified Nanocarriers in Drug Delivery Systems. Pharmaceutics 16(6), (2024).

2.Wan D, Wu YA, Zhang YY, Liu YH, Pan J. Enzyme-Responsive Micelles with High Drug-Loading Capacity for Antitumor Therapy. Macromolecular Rapid Communications doi: 10.1002/marc.202400503(2024).

3.Liu YH, Wu YN, Li ZJ, Wan D, Pan J. Targeted Drug Delivery Strategies for the Treatment of Hepatocellular Carcinoma. Molecules 29(18), (2024).

4.Liu YH, Ren ZQ, Zhang XG et al. Dual-Triggered Peptide-Based Polymeric Micelles Enhance Doxorubicin Delivery for Targeted Cancer Therapy. Acs Applied Nano Materials 7(12), 14380-14391 (2024).

5.Zhang XN, Dai LH, Ding YM et al. An MMP-2 sensitive and reduction-responsive prodrug amphiphile for actively targeted therapy of cancer by hierarchical cleavage. Chemical Communications 59(7), 900-903（2023）.

6.Wan D, Zhu QN, Zhang JX et al. Intracellular and extracellular enzymatic responsive micelle for intelligent therapy of cancer. Nano Research 16(2), 2851-2858 (2023).

7.Qiao YQ, Ma Y, Tong Y et al. Phototherapy and Mechanism Exploration of Biofilm and Multidrug-Resistant Helicobacter pylori by Bacteria-Targeted NIR Photosensitizer. Small 19(4), (2023).

8.Li SF, Li FZ, Wan D, Chen ZQ, Pan J, Liang XJ. A micelle-based stage-by-stage impelled system for efficient doxorubicin delivery. Bioactive Materials 25 783-795 (2023).

9.Gong YH, Zhang JY, Lu Y, Wan D, Pan J, Ma GL. Light-activated arginine-rich peptide-modified nanoparticles for deep-penetrating chemo-photo-immunotherapy of solid tumor. Nano Research 16(7),9804-9814 (2023).

10.Chen JJ, Song YR, Yang WQ et al. Enzyme and Reduction Dual-Responsive Peptide Micelles as Nanocarriers for Smart Drug Delivery. Acs Applied Nano Materials 6(18), 16179-16188 (2023).

11.Zhai XY, Chen X, Shi X et al. Simultaneously enhancing purification, catalysis and in situ separation in a continuous cross-flow catalytic degradation process of multi-component organic pollutants by a double-layer PVDF composite membrane. Journal of Environmental Chemical Engineering 10(2), (2022).

12.Wang S, Chen X, Li BK et al. One-step selective separation and catalytic transformation of an organic pollutant from pollutant mixture via a thermo-responsive semi-IPN/PVDF@Pd bilayer composite membrane. Separation and Purification Technology 286 (2022).

13.Wan D, Liu YJ, Guo XH, Zhang JX, Pan J. Intelligent Drug Delivery by Peptide-Based Dual-Function Micelles. International Journal of Molecular Sciences 23(17), (2022).

14.Zhu XH, Li C, Lu Y et al. Tumor microenvironment-activated therapeutic peptide-conjugated prodrug nanoparticles for enhanced tumor penetration and local T cell activation in the tumor microenvironment. Acta Biomaterialia 119 337-348 (2021).

15.Wan D, Li SF, Zhang JX, Ma GL, Pan J. Intelligent self-assembly prodrug micelles loading doxorubicin in response to tumor microenvironment for targeted tumors therapy. Chinese Journal of Chemical Engineering 39 219-227 (2021).

16.Wan D, Jiang QL, Song Y, Pan J, Qi T, Li GL. Biomimetic Tough Self-Healing Polymers Enhanced by Crystallization Nanostructures. Acs Applied Polymer Materials 2(2), 879-886 (2020).

17.Liu YJ, Lu Y, Zhu XH et al. Tumor microenvironment-responsive prodrug nanoplatform via co-self-assembly of photothermal agent and IDO inhibitor for enhanced tumor penetration and cancer immunotherapy. Biomaterials 242 (2020).

18.Pan J, Lei SQ, Chang L, Wan D. Smart pH-responsive nanoparticles in a model tumor microenvironment for enhanced cellular uptake. Journal of Materials Science 54(2), 1692-1702 (2019).

19.Tsai HI, Jiang LJ, Zeng XW et al. DACHPt-Loaded Nanoparticles Self-assembled from Biodegradable Dendritic Copolymer Polyglutamic Acid-b-D-α -Tocopheryl Polyethylene Glycol 1000 Succinate for Multidrug Resistant Lung Cancer Therapy. Frontiers in Pharmacology 9 (2018).

20.Pan J, Li PJ, Wang Y, Chang L, Wan D, Wang H. Active targeted drug delivery of MMP-2 sensitive polymeric nanoparticles. Chemical Communications 54(79), (2018).

21.Li LL, Qiao SL, Liu WJ et al. Intracellular construction of topology-controlled polypeptide nanostructures with diverse biological functions. Nature Communications 8 (2017).

22.Wang LL, Liu YG, Chong CB, Wang J, Shi ZQ, Pan J. Phenolic formaldehyde resin/graphene composites as lithium-ion batteries anode. Materials Letters 170 217-220 (2016).

23.Wan D, Liu WJ, Wang L, Wang H, Pan J. Fluoridated hydroxyapatite: Eu3+ nanorods-loaded folate-conjugated D-α -tocopheryl polyethylene glycol succinate (vitamin E TPGS) micelles for targeted imaging of cancer cells. Nanotechnology 27(10), (2016).

24.Liu WJ, Zhang D, Li LL et al. In Situ Construction and Characterization of Chlorin-Based Supramolecular Aggregates in Tumor Cells. Acs Applied Materials & Interfaces 8(35), 22875-22883 (2016).

25.Li LL, Zeng Q, Liu WJ et al. Quantitative Analysis of Caspase-1 Activity in Living Cells Through Dynamic Equilibrium of Chlorophyll-Based Nano-assembly Modulated Photoacoustic Signals. Acs Applied Materials & Interfaces 8(28), 17936-17943 (2016).

26.Zhang JC, Qiao ZY, Yang PP, Pan J, Wang L, Wang H. Recent Advances in Near-Infrared Absorption Nanomaterials as Photoacoustic Contrast Agents for Biomedical Imaging. Chinese Journal of Chemistry33(1),35-52 (2015).

27.Pan J, Liu WJ, Hua C, Wang LL, Wan D, Gong JB. Polymeric nanocomposites loaded with fluoridated hydroxyapatite Ln3+ (Ln = Eu or Tb)/iron oxide for magnetic targeted cellular imaging.Cancer Biology & Medicine 12(3), 175-183 (2015).

28.Pan J, Zhang JC, Wang LL, Wan D. Synthesis of iron oxide coated fluoridated HAp/Ln3+(Ln = Eu or Tb) nanocomposites for biological applications. Chemical Communications 50(90), 140102(2014).

29.Pan J, Wan D, Bian YX et al. Reduction of nonspecific binding for cellular imaging using quantum dots conjugated with vitamin E. Aiche Journal 60(5), 1591-1597 (2014).

30.Liu XT, Liang SM, Pan J et al. High-Throughput Determination of Nicotine in Plasma by Ultrasonication Enhanced Hollow Fiber Liquid-Phase Microextraction Prior to Gas Chromatography. Journal of Chromatographic Science 52(6), 553-558 (2014).

31.Pan J, Wan D, Bian YX et al. Fluorescent Hydroxyapatite-Loaded Biodegradable Polymer Nanoparticles with Folate Decoration for Targeted Imaging. Aiche Journal 59(12), 4494-4501 (2013).

32.Pan J, Wan D, Gong JL. PEGylated liposome coated QDs/mesoporous silica core-shell nanoparticles for molecular imaging. Chemical Communications 47(12), 3442-3444 (2011).

33.Pan J, Liu YT, Feng SS. Multifunctional nanoparticles of biodegradable copolymer blend for cancer diagnosis and treatment. Nanomedicine 5(3), 347-360 (2010).

34.Liu YT, Pan J, Feng SS. Nanoparticles of lipid monolayer shell and biodegradable polymer core for controlled release of paclitaxel: Effects of surfactants on particles size, characteristics and in vitro performance. International Journal of Pharmaceutics 395(1-2), 243-250 (2010).

35.Liu YT, Li K, Pan J, Liu B, Feng SS. Folic acid conjugated nanoparticles of mixed lipid monolayer shell and biodegradable polymer core for targeted delivery of Docetaxel. Biomaterials 31(2), 330-338 (2010).

36.Pan J, Feng SS. Targeting and imaging cancer cells by Folate-decorated, quantum dots (QDs)-loaded nanoparticles of biodegradable polymers. Biomaterials 30(6), 1176-1183 (2009).

37.Li K, Pan J, Feng SS et al. Generic Strategy of Preparing Fluorescent Conjugated-Polymer-Loaded Poly(DL-lactide-co-Glycolide) Nanoparticles for Targeted Cell Imaging. Advanced Functional Materials 19(22), 3535-3542 (2009).

38.Pan J, Wang Y, Feng SS. Formulation, characterization, and in vitro evaluation of quantum dots loaded in poly(lactide)-vitamin E TPGS nanoparticles for cellular and molecular imaging. Biotechnology and Bioengineering 101(3), 622-633 (2008).

39.Pan J, Feng SS. Targeted delivery of paclitaxel using folate-decorated poly(lactide) - vitamin E TPGS nanoparticles. Biomaterials 29(17), 2663-2672 (2008).