14 Papers
70 Citations
Ding-Kun Ji is an academic researcher from East China University of Science and Technology. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 7, co-authored 7 publications.
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Papers
Targeting Osteocytes to Attenuate Early Breast Cancer Bone Metastasis by Theranostic Upconversion Nanoparticles with Responsive Plumbagin Release
Han Qiao,Zhaowen Cui,Shengbing Yang,Ding-Kun Ji,Yugang Wang,Ying Yang,Xiuguo Han,Qiming Fan,An Qin,Tingyu Wang,Xiao-Peng He,Wenbo Bu,Wenbo Bu,Tingting Tang +13 more
TL;DR: By establishing a breast cancer bone metastasis mice model via intracardiac injection, it is shown that tumoriogenesis and osteoclastogenesis can both be attenuated significantly and realize the effective theranostics of tiny bone metastasi in breast cancerBone metastasis, which highlights the significance of theranostic nanomedicine and osteocyte-targeting therapy in the treatment of early bone metastases.
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Targeted Intracellular Production of Reactive Oxygen Species by a 2D Molybdenum Disulfide Glycosheet
TL;DR: A 2D "glycosheet" based on supramolecular self-assembly between 2D MoS2 and fluorescent glycoligands is developed that is proven suitable for targeted intracellular production of reactive oxygen species (singlet oxygen).
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Selective fluorescence detection of monosaccharides using a material composite formed between graphene oxide and boronate-based receptors.
TL;DR: The BA@GO composite sensor displayed a "turn-on" fluorescence response with a good linear relationship toward fructose over a range of other saccharides, and provide a useful platform for fluorogenic detection of monosaccharides based on the strong affinity between the boronic acid receptor and monosACcharides.
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Simultaneous Detection of Diverse Glycoligand‐Receptor Recognitions Using a Single‐Excitation, Dual‐Emission Graphene Composite
TL;DR: The first fluorogenic composite material (FCM) is developed that can probe diverse LPIs at a single biomimetic interface, and the dual emission of the FCM can be produced, on a single excitation, while both proteins exist, providing a concise means for the simultaneous probing of diverseLPIs.
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An insight into graphene oxide associated fluorogenic sensing of glycodye–lectin interactions
TL;DR: It is shown that with the increase of size, the quenching ability of GO for the glycodyes increased, whereas the GO with a moderate size showed the best sensing performance for lectins (proteins that recognize glycoligands), and the plausible mechanism of action was proposed.
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