Jianxin Shi scite author profile

First published as an Advance Article on the webTwo photoluminescent two-and three-dimensional coordination polymers consisting of Zn 4 O [or Zn 4 (OH) 2 ] cores, dicarboxylate (isophthalate or fumarate) and 4,4A-bipyridine ligands as building blocks have been hydrothermally synthesized and structurally characterized.The construction of supramolecular architectures are currently of great interest owing to their intriguing network topologies and potential functions as new classes of materials. 1 Polynuclear d 10 metal (Cu I , Ag I , Au I , Zn II or Cd II ) complexes have been found to exhibit intriguing structural and photoluminescent properties. 2-5 We have been pursuing synthetic strategies for non-interpenetrating open frameworks with variable cavities or channels using simple units as building blocks. 6 We now extend to work towards extended networks based on metal clusters as building blocks, and report here the preparation and crystal structures of two novel coordination polymers constructed by zinc cluster cores, 4,4A-bipyridine (4,4A-bpy) and dicarboxylate ligands, namely [Zn 4 O(ip) 3 (4,4A-bpy)] (ip = isophthalate) 1 and [Zn 4 (OH) 2 (fa) 3 (4,4A-bpy) 2 ] (fa = fumarate) 2.

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Advanced red phosphors for white light-emitting diodes

Li¹,

Yan²,

Wen³

et al. 2016

J. Mater. Chem. C

412

127

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A novel blue-emitting phosphor LiSrPO4:Eu2+ for white LEDs

Shi

Wang

et al. 2006

Journal of Solid State Chemistry

251

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Tunable Luminescence and Ce³⁺ → Tb³⁺ → Eu³⁺ Energy Transfer of Broadband-Excited and Narrow Line Red Emitting Y₂SiO₅:Ce³⁺, Tb³⁺, Eu³⁺ Phosphor

et al. 2014

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The Ce3+ → Tb3+ → Eu3+ energy-transfer process enables Eu3+5D0 → 7F J line emission to be sensitized by the allowed Ce3+ 4f1 → 5d1 absorption transition in near-ultraviolet (NUV) and violet spectral regions. This energy-transfer strategy is applied in Y2SiO5:Ce3+, Tb3+, Eu3+ powders, leading to line-emitting red phosphors that can be excited by short-wavelength InGaN LEDs. The blue, green, and red colors can be tuned by the ratio of Ce3+/Tb3+/Eu3+. Furthermore, the energy-transfer efficiencies and corresponding mechanisms are discussed in detail, and the thermal stability is evaluated. The results suggest that the optimal composition phosphor Y2SiO5: 0.01Ce3+, 0.50Tb3+, 0.01Eu3+, which exhibits an intense Eu3+ red 4f–4f sharp emission with a strong 4f–5d absorption band of Ce3+ at the NUV region, could serve as a potential broadband-excited and narrow line red phosphor for NUV LEDs.

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Jianxin Shi

Mn²⁺and Mn⁴⁺red phosphors: synthesis, luminescence and applications in WLEDs. A review

Blue photoluminescent zinc coordination polymers with supertetranuclear cores

Advanced red phosphors for white light-emitting diodes

A novel blue-emitting phosphor LiSrPO4:Eu2+ for white LEDs

Tunable Luminescence and Ce³⁺ → Tb³⁺ → Eu³⁺ Energy Transfer of Broadband-Excited and Narrow Line Red Emitting Y₂SiO₅:Ce³⁺, Tb³⁺, Eu³⁺ Phosphor

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Jianxin Shi

Mn2+and Mn4+red phosphors: synthesis, luminescence and applications in WLEDs. A review

Blue photoluminescent zinc coordination polymers with supertetranuclear cores

Advanced red phosphors for white light-emitting diodes

A novel blue-emitting phosphor LiSrPO4:Eu2+ for white LEDs

Tunable Luminescence and Ce3+ → Tb3+ → Eu3+ Energy Transfer of Broadband-Excited and Narrow Line Red Emitting Y2SiO5:Ce3+, Tb3+, Eu3+ Phosphor

Contact Info

Product

Resources

About

Mn²⁺and Mn⁴⁺red phosphors: synthesis, luminescence and applications in WLEDs. A review

Tunable Luminescence and Ce³⁺ → Tb³⁺ → Eu³⁺ Energy Transfer of Broadband-Excited and Narrow Line Red Emitting Y₂SiO₅:Ce³⁺, Tb³⁺, Eu³⁺ Phosphor