Wanmin Chen
Lanzhou University
12 Papers
7 Citations
Wanmin Chen is an academic researcher from Lanzhou University. The author has contributed to research in topics: Chemistry & Luminescence. The author has an hindex of 8, co-authored 11 publications.
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Papers
A Multi-responsive Regenerable Europium-Organic Framework Luminescent Sensor for Fe3+ , CrVI Anions, and Picric Acid.
Wei Liu,Xin Huang,Cong Xu,Chunyang Chen,Lizi Yang,Wei Dou,Wanmin Chen,Huan Yang,Weisheng Liu +8 more
TL;DR: This is the first example of a multi-responsive luminescent Ln-MOF sensor for Fe3+ , CrVI anions, and picric acid based on a urea derivative, and it may potentially be used as amulti-responsive regenerable luminescence sensor for the quantitative detection of toxic and harmful substances.
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Construction of Multifunctional Luminescent Lanthanide MOFs by Hydrogen Bond Functionalization for Picric Acid Detection and Fluorescent Dyes Encapsulation
Wei Liu,Chunyang Chen,Zelong Wu,Yuanfeng Pan,CaiHong Ye,Zhaori Mu,Xueli Luo,Wanmin Chen,Weisheng Liu +8 more
TL;DR: From the perspective of efficient and economical utilization of materials, it is very meaningful to achieve multifunctional performance in its assembly process, and this is also the future developm....
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The Construction of Homochiral Lanthanide Quadruple-Stranded Helicates with Multiresponsive Sensing Properties toward Fluoride Anions.
TL;DR: It is demonstrated that these chiral lanthanide helicates could serve as sensitive and multi-responsive sensors to recognize and detect F- anions based on the change of chiral signal and NIR luminescence simultaneously, which represents a meaningful exploration for developing functional lanthanides-based polynuclear clusters.
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Self-assembly of tetranuclear 3d-4f helicates as highly efficient catalysts for CO2 cycloaddition reactions under mild conditions.
TL;DR: A series of novel asymmetry 3d-4f helicates Zn3LnL4 demonstrate high catalytic efficiency in converting CO2 to cyclic carbonates under mild conditions and show stable catalytic performance without being influenced by the moisture and air.
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A “turn-on” lanthanide complex chemosensor for recognition of lead(II) based on the formation of nanoparticles
TL;DR: This sensing process was analyzed in detail, and it is suggested that the formation of Pb2+-induced hydroxide nanoclusters can adjust the optical signal of the external luminescence compound by embedment and fixation of Tb3+ complexes.
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