ChenWen-Tong scite author profile

ChenWen-Tong

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Jinggangshan University, Chinese Academy of Sciences

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Luminescence and energy-transfer mechanism of a praseodymium material

LiuQian

ChenWen-Tong

LuoHui

et al. 2019

Emerging Materials Research

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A praseodymium (Pr) material, [Pr(isonicotinic acid)2(H2O)4] n nNO3 (1), was synthesized through a solvothermal reaction and was characterized by single-crystal X-ray diffraction. It is characterized by a one-dimensional chain-like structure. The [Pr(isonicotinic acid)2(H2O)4] n n+ cationic chains and isolated nitrate (NO3 −) anions are interlinked by hydrogen (H)-bonding interactions, yielding a three-dimensional supramolecular network. Solid-state photoluminescence measurements revealed that it exhibits a yellow-light emission. The photoluminescence emission bands originate from the characteristic emission of the 4f electron intrashell transitions of 3 P 1 → 3 H 5 and 3 P 0 → 3 H 6 of the praseodymium ion (Pr3+). The energy-transfer mechanism is explained by the energy-level diagram of the praseodymium ion and the isonicotinic acid (C6H5NO2) ligand. The praseodymium material has remarkable Commission Internationale de l’Éclairage chromaticity coordinates of (0·4251, 0·4646). Therefore, it is a promising color converter for lighting and displays. It is found that isonicotinic acid is not an ideal ligand to excite Pr3+ ions, i.e. not a good “antenna”. The purity of the bulky sample was confirmed by PXRD. The FT-IR bands of the title complex were assigned. The title complex is thermally stable at about 90°C

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Preparation and characterization of a novel cuprous complex

ZhangDing-Wa

LuoHui

ChenWen-Tong

2020

Emerging Materials Research

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Cu4Cl4(2,2′-bpy)2 (1) (bpy = bipyridine) was obtained and characterized. It crystallizes in the triclinic system P(−1) space group. It is a discrete motif. Cu1 is bound by two nitrogen (N) atoms and two chloride (Cl−) ions, generating a tetrahedron. Cu2 is bound by two chloride ions to generate a line. A Cu4Cl4 moiety is generated by four chloride and four cuprous (Cu+) ions and connects to two 2,2′-bpy molecules to generate Cu4Cl4(2,2′-bpy)2. It has a blue photoluminescence emission, which can be attributed to ligand-to-ligand charge transfer and metal-to-ligand charge transfer. Time-dependent density functional theory calculations were conducted with the Gaussian03 program. The X-ray diffraction software is CrystalClear.

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ChenWen-Tong

Luminescence and energy-transfer mechanism of a praseodymium material

Preparation and characterization of a novel cuprous complex

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