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Luodan Yu
Researcher at Shanghai University
Publications - 70
Citations - 4696
Luodan Yu is an academic researcher from Shanghai University. The author has contributed to research in topics: Nanomedicine & Chemistry. The author has an hindex of 25, co-authored 62 publications receiving 2615 citations. Previous affiliations of Luodan Yu include Chinese Academy of Sciences.
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Two-Dimensional Ultrathin MXene Ceramic Nanosheets for Photothermal Conversion
TL;DR: The great potential of Ti3C2 nanosheets (MXenes) is promised as a novel ceramic photothermal agent used for cancer therapy and may arouse much interest in exploring MXene-based ceramic biomaterials to benefit the biomedical applications.
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Metalloporphyrin-Encapsulated Biodegradable Nanosystems for Highly Efficient Magnetic Resonance Imaging-Guided Sonodynamic Cancer Therapy
TL;DR: This report provides a paradigm that nanotechnology-enhanced SDT based on elaborately designed high-performance multifunctional sonosensitizers will pave a new way for efficient cancer treatment by fully taking the advantages of ultrasound therapy and quickly developing nanomedicine.
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"Manganese Extraction" Strategy Enables Tumor-Sensitive Biodegradability and Theranostics of Nanoparticles.
TL;DR: This is the first demonstration of biodegradable inorganic mesoporous nanosystems with specific biodegrades behavior sensitive to tumor microenvironment, which also provides a feasible approach to realize the on-demand biodegradation of inorganic nanomaterials simply by "metal ion-doping" strategy, paving the way to solve the critical low-biodegradation issue of in organic drug carriers.
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Enhanced Tumor-Specific Disulfiram Chemotherapy by In Situ Cu2+ Chelation-Initiated Nontoxicity-to-Toxicity Transition
Wencheng Wu,Luodan Yu,Quzi Jiang,Minfeng Huo,Han Lin,Liying Wang,Liying Wang,Yu Chen,Jianlin Shi +8 more
TL;DR: Both in vitro cellular assays and in vivo tumor-xenograft experiments demonstrated the efficient Cu-enhanced and tumor-specific chemotherapeutic efficacy of DSF, with co-contributions from highly toxic CuET complexes and ROS generated within tumors.
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Gas-Generating Nanoplatforms: Material Chemistry, Multifunctionality, and Gas Therapy.
Luodan Yu,Ping Hu,Yu Chen +2 more
TL;DR: Gas‐generating nanoplplatforms (GGNs) have emerged very recently as unique theranostic nanoplatforms for broad gas therapies by either exogenous physical triggers or endogenous disease‐environment responsiveness, and have been successfully developed for versatile biomedical applications, including diagnostic imaging and therapeutic use.