Shoumin Chen
Xiamen University
10 Papers
113 Citations
Shoumin Chen is an academic researcher from Xiamen University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 7, co-authored 10 publications.
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Papers
A nanogel of on-site tunable pH-response for efficient anticancer drug delivery
TL;DR: A smart, soft and small nanoparticulate drug carrier that can efficiently transport therapeutics into tumor cells to control the intracellular drug concentration will enable major advancements in cancer therapy and show significantly enhanced therapeutic efficacy in combined chemo-cryo treatments of the model B16F10 melanoma cells, indicating its great potential for cancer therapy.
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One-pot synthesis of responsive catalytic Au@PVP hybrid nanogels
TL;DR: Responsive catalytic hybrid nanogels with Au nanoparticle cores and a polyvinylpyrrolidone based gel shell are prepared through a novel one-pot approach and demonstrate both a pH-modulated catalytic activity and anti-aggregation properties upon recycling.
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A Fluorescent Responsive Hybrid Nanogel for Closed-Loop Control of Glucose
TL;DR: The rationally designed hybrid nanogel can optically signal the glucose level with high sensitivity and selectivity and simultaneously regulate the insulin release rate in response to the glucose reading, which shows a promising concept toward the development of a miniaturized closed-loop glycemic control system.
Immobilization of sulfur in microgels for lithium–sulfur battery
TL;DR: Immobilization of sulfur in microgels is achieved via free radical polymerization of commercial poly(ethylene glycol) dimethacrylate in the solution of sulfur-terminated poly(3-oligo( methylene oxide)4-thiophene), a copolymer prepared by the inverse vulcanization of S8 with allyl-terminate poly( 3-oligosine oxide) 4-Thiophene.
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Glucose-responsive microgels based on apo-enzyme recognition
Ting Ye,Xue Bai,Xiaomei Jiang,Qingshi Wu,Shoumin Chen,Anqi Qu,Junwei Huang,Jing Shen,Weitai Wu +8 more
TL;DR: With the microgels as carriers, in vitro insulin release could be modulated in a pulsatile profile in response to glucose concentrations, and in vivo studies revealed that these formulations may improve glucose control in streptozotocin-induced diabetic mice subcutaneously administered with the insulin loadedmicrogels.
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