Summary
Biography
| Date | Role |
|---|---|
| 2022 – |
Professor of Biomaterials Engineering, Department of Chemical Engineering, Imperial College London |
| 2019 – 2022 |
Reader in Biomaterials Engineering, Department of Chemical Engineering, Imperial College London |
| 2016 – 2019 | Senior Lecturer, Department of Chemical Engineering, Imperial College London |
| 2013 – 2016 | Lecturer, Department of Chemical Engineering, Imperial College London |
| 2009 – 2013 | Group Leader and BHRC Senior Translational Research Fellow (tenure-track), University of Leeds |
| 2007 – 2009 | Postdoctoral Research Associate, Department of Chemical Engineering and Biotechnology, University of Cambridge |
| 2006 – 2007 | Postdoctoral Research Assistant, Department of Chemical Engineering and Biotechnology, University of Cambridge |
| 2003 – 2007 | PhD in Chemical Engineering, University of Cambridge, UK |
| 2000 – 2003 | MSc in Materials Science, Tsinghua University, China |
| 1995 – 1999 | BEng in Chemical Engineering, Beijing Technology and Business University, China |
Selected Publications
Journal Articles
Li X, Duan Z, Chen X, et al., 2023, Impairing Tumor Metabolic Plasticity via a Stable Metal‐Phenolic‐Based Polymeric Nanomedicine to Suppress Colorectal Cancer, Advanced Materials, ISSN:0935-9648
Zhang Y, Zhou J, Chen X, et al., 2023, Modulating tumor-stromal crosstalk via a redox-responsive nanomedicine for combination tumor therapy, Journal of Controlled Release, Vol:356, ISSN:0168-3659, Pages:525-541
Chen S, Morrison G, Liu W, et al., 2022, A pH-responsive, endosomolytic liposome functionalized with membrane-anchoring, comb-like pseudopeptides for enhanced intracellular delivery and cancer treatment, Biomaterials Science, Vol:10, ISSN:2047-4830, Pages:6718-6730
Huang Y, Jiang J, Ren J, et al., 2022, A fibrinogen-mimicking, activated-platelet-sensitive nanocoacervate enhances thrombus targeting and penetration of tissue plasminogen activator for effective thrombolytic therapy., Advanced Healthcare Materials, Vol:11, ISSN:2192-2640, Pages:1-17
Zheng X, Pan D, Zhu G, et al., 2022, A Dendritic Polymer‐Based Nanosystem Mediates Drug Penetration and Irreversible Endoplasmic Reticulum Stresses in Tumor via Neighboring Effect, Advanced Materials, Vol:34, ISSN:0935-9648, Pages:2201200-2201200
Gu L, Duan Z, Chen X, et al., 2022, A transformable amphiphilic and block polymer-dendron conjugate for enhanced tumor penetration and retention with cellular homeostasis perturbation via membrane flow., Advanced Materials, Vol:34, ISSN:0935-9648, Pages:1-14
Luo Q, Duan Z, Li X, et al., 2022, Branched polymer-based redox/enzyme-activatable photodynamic nanoagent to trigger STING-dependent immune responses for enhanced therapeutic effect, Advanced Functional Materials, Vol:32, ISSN:1616-301X, Pages:1-14
Li Y, Duan Z, Pan D, et al., 2022, Attenuating metabolic competition of tumor cells for favoring the nutritional demand of immune cells by a branched polymeric drug delivery system, Advanced Materials, Vol:35, ISSN:0935-9648, Pages:1-14
Pan D, Zheng X, Zhang L, et al., 2022, Synergistic disruption of metabolic homeostasis through hyperbranched poly(ethylene glycol) conjugates as nanotherapeutics to constrain cancer growth, Advanced Materials, Vol:34, ISSN:0935-9648
Cai H, Tan P, Chen X, et al., 2022, Stimuli-sensitive linear-dendritic block copolymer-drug prodrug as nano-platform for tumor combination therapy., Advanced Materials, Vol:34, ISSN:0935-9648, Pages:1-15
Tan P, Cai H, Wei Q, et al., 2021, Enhanced chemo-photodynamic therapy of an enzyme-responsive prodrug in bladder cancer patient-derived xenograft models, Biomaterials, Vol:277, ISSN:0142-9612, Pages:1-13
Huang Y, Gu B, Salles II, et al., 2021, Fibrinogen-mimicking, multi-arm nanovesicles for human thrombus-specific delivery of tissue plasminogen activator and targeted thrombolytic therapy, Science Advances, Vol:7, ISSN:2375-2548
Huang Y, Wang Z, Zhang G, et al., 2021, A pH/redox-dual responsive, nanoemulsion-embedded hydrogel for efficient oral delivery and controlled intestinal release of magnesium ions, Journal of Materials Chemistry B, Vol:9, ISSN:2050-750X, Pages:1888-1895
Li Y, Tan T, Zhao Y, et al., 2020, Anticancer polymers via the biginelli reaction, Acs Macro Letters, Vol:9, ISSN:2161-1653, Pages:1249-1254
Chen S, Wu L, Ren J, et al., 2020, Comb-like pseudopeptides enable very rapid and efficient intracellular trehalose delivery for enhanced cryopreservation of erythrocytes, ACS Applied Materials & Interfaces, Vol:12, ISSN:1944-8244, Pages:28941-28951
Tascini AS, Wang S, Seddon JM, et al., 2020, Fats’ love–hate relationships: a molecular dynamics simulation and hands-on experiment outreach activity to introduce the amphiphilic nature and biological functions of lipids to young students and the general public, Journal of Chemical Education, Vol:97, ISSN:0021-9584, Pages:1360-1367
Li L, Xiao B, Mu J, et al., 2019, A MnO2 nanoparticle-dotted hydrogel promotes spinal cord repair via regulating reactive oxygen species microenvironment and synergizing with mesenchymal stem cells, ACS Nano, Vol:13, ISSN:1936-0851, Pages:14283-14293
Kopytynski M, Chen S, Legg S, et al., 2019, A versatile polymer‐based platform for intracellular delivery of macromolecules, Advanced Therapeutics, Vol:3, ISSN:2366-3987, Pages:1-10
Huang Y, Yu L, Ren J, et al., 2019, An activated-platelet-sensitive nanocarrier enables targeted delivery of tissue plasminogen activator for effective thrombolytic therapy, Journal of Controlled Release, Vol:300, ISSN:0168-3659, Pages:1-12
He M, Huang L, Hou X, et al., 2019, Efficient ovalbumin delivery using a novel multifunctional micellar platform for targeted melanoma immunotherapy, International Journal of Pharmaceutics, Vol:560, ISSN:0378-5173, Pages:1-10
Dong R, Liu R, Gaffney P, et al., 2019, Sequence-defined multifunctional polyethers via liquid-phase synthesis with molecular sieving, Nature Chemistry, Vol:11, ISSN:1755-4330, Pages:136-145
Tascini AS, Noro MG, Seddon JM, et al., 2019, Mechanisms of lipid extraction from skin lipid bilayers by sebum triglycerides, Physical Chemistry Chemical Physics, Vol:21, ISSN:1463-9076, Pages:1471-1477
Wang S, Ha Y, Huang X, et al., 2018, A new strategy for intestinal drug delivery via pH-responsive and membrane-active nanogels, ACS Applied Materials & Interfaces, Vol:10, ISSN:1944-8244, Pages:36622-36627
Wang S, Chen R, 2017, pH-Responsive, Lysine-Based, Hyperbranched Polymers Mimicking Endosomolytic Cell-Penetrating Peptides for Efficient Intracellular Delivery, Chemistry of Materials, Vol:29, ISSN:0897-4756, Pages:5806-5815
Chen S, Wang S, Kopytynski M, et al., 2017, Membrane-anchoring, comb-like pseudopeptides for efficient, pH-mediated membrane destabilization and intracellular delivery, ACS Applied Materials & Interfaces, Vol:9, ISSN:1944-8244, Pages:8021-8029
Chen S, Chen R, 2016, A virus-mimicking, endosomolytic liposomal system for efficient, pH-triggered intracellular drug delivery, ACS Applied Materials & Interfaces, Vol:8, ISSN:1944-8244, Pages:22457-22467
Bachelet M, Chen R, 2016, Self-assembly of PEGylated gold nanoparticles with satellite structures as seeds, Chemical Communications, Vol:52, ISSN:1364-548X, Pages:9542-9545
Zhang W, Wang F, Wang Y, et al., 2016, pH and near-infrared light dual-stimuli responsive drug delivery using DNA-conjugated gold nanorods for effective treatment of multidrug resistant cancer cells., J Control Release, Vol:232, Pages:9-19