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Xuemei Wang
Researcher at Southeast University
Publications - 323
Citations - 9230
Xuemei Wang is an academic researcher from Southeast University. The author has contributed to research in topics: Cancer cell & Nanoclusters. The author has an hindex of 42, co-authored 294 publications receiving 7443 citations. Previous affiliations of Xuemei Wang include Hebrew University of Jerusalem & California State University, Los Angeles.
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Gold Nanoclusters and Graphene Nanocomposites for Drug Delivery and Imaging of Cancer Cells
TL;DR: It is observed that GNCs anchored on RGO retain their nearinfrared fluorescent property so that Raman spectroscopy could be used to investigate the performance of DOX-loaded GNC-RGO nanocomposites against hepatocarcinoma and provide important mechanistic clues about their interactions with proteins and DNA.
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A strategy for ZnO nanorod mediated multi-mode cancer treatment.
TL;DR: Investigating a new strategy of combined application of ZnO nanorods with anticancer drug daunorubicin (DNR) in photodynamic therapy (PDT) revealed that such modality combinations represent a promising approach in cancer therapy.
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Highly Sensitive Graphene–Pt Nanocomposites Amperometric Biosensor and Its Application in Living Cell H2O2 Detection
TL;DR: A novel biosensor can measure the H2O2 release from living cells because of its low detection limit, wide linear range, and higher sensitivity.
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Synergistic cytotoxic effect of different sized ZnO nanoparticles and daunorubicin against leukemia cancer cells under UV irradiation.
TL;DR: The results indicate that the combination of the different sized ZnO nanoparticles and daunorubicin under UV irradiation could have synergistic cytotoxic effect on leukemia cancer cells, indicating the great potential of Zn O nanoparticles in relevant clinical and biomedical applications.
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In vivo self-bio-imaging of tumors through in situ biosynthesized fluorescent gold nanoclusters
TL;DR: It is established herein that fluorescent gold nanoclusters are spontaneously biosynthesized by cancerous cell incubated with micromolar chloroauric acid solutions, a biocompatible molecular Au(III) species, thus permitting a direct monitoring of cancer therapies progresses.