Dao-Bin Guan scite author profile

Dao-Bin Guan

2Publications

11Citation Statements Received

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Hubei University

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Regulating structural dimensionality and emission colors by organic conjugation between Sm^III at a fixed distance

Wang

Chen

et al. 2018

Dalton Trans.

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The conjugation of bridging bis(diphenylphosphine oxide) alkane or arene ligands was found to control the structural dimensionality and the emission color of complexes from reactions with SmIII(hfac)3(H2O)2 (hfac- = hexafluoroacetylacetonato) while retaining the SmSm distances. Bis(diphenylphosphine oxide)-1,4-butane (L1) affords a one-dimensional (1D) ribbon {Sm(hfac)3(L1)}∞ (1) that emits red color, while bis(diphenyl-phosphinoyl)-1,4-benzene (L2) results in a two-dimensional (2D) network {Sm(hfac)2(CF3COO)(L2)3}∞ (2) and near-white emission, but bis(diphenyl-phosphinoyl)-9,10-anthracene (L3) forms a zero-dimensional (0D) cyclic structure {Sm(hfac)3(L3)}2 (3) with strong ππ interactions that emit green color. Noticeably, the conjugation change is accompanied by a configurational change of coordination from trans for 1 and 2 to cis for 3. The color change is associated with the superposition of ligand and Sm based electronic band energies and their intensities. Such white light emission by a single compound having contributions from different building components is quite rare.

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Stepwise Increase of Nd^III‐Based Phosphorescence by AIE‐Active Sensitizer: Broadening the AIPE Family from Transition Metals to Discrete Near‐Infrared Lanthanide Complexes**

Zhuo

Guan

et al. 2021

Chemistry A European J

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We designed two near-infrared (NIR) lanthanide complexes [(L) 2 -Nd(NO 3 ) 3 ] (L = TPE 2 -BPY for 1, TPE-BPY for 2) by employing aggregation-induced emission (AIE)-active tetraphenylethylene (TPE) derivatives as sensitizers, which possessed matched energy to Nd III , prevented competitive deactivation under aggregation, even shifted the excitation window toward 600 nm by twisted intramolecular charge transfer. Furthermore, benefiting from the 4 f electron shielding effect and antenna effect, the enhanced excitation energies of the AIE-active sensitizers by structural rigid-ification transferred into the inert Nd III excited state through 3 LMCT, affording the first aggregation-induced phosphorescence enhancement (AIPE)-active discrete NIR-emitting lanthanide complexes. As 1 equipped with more AIE-active TPE than 2, L!Nd energy transfer efficiency in the former was higher than that in the latter under the same conditions. Consequently, the crystal of 1 exhibited one of the longest lifetimes (9.69 μs) among Nd III -based complexes containing CÀ H bonds.

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Dao-Bin Guan

Regulating structural dimensionality and emission colors by organic conjugation between Sm^III at a fixed distance

Stepwise Increase of Nd^III‐Based Phosphorescence by AIE‐Active Sensitizer: Broadening the AIPE Family from Transition Metals to Discrete Near‐Infrared Lanthanide Complexes**

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Dao-Bin Guan

Regulating structural dimensionality and emission colors by organic conjugation between SmIII at a fixed distance

Stepwise Increase of NdIII‐Based Phosphorescence by AIE‐Active Sensitizer: Broadening the AIPE Family from Transition Metals to Discrete Near‐Infrared Lanthanide Complexes**

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Regulating structural dimensionality and emission colors by organic conjugation between Sm^III at a fixed distance

Stepwise Increase of Nd^III‐Based Phosphorescence by AIE‐Active Sensitizer: Broadening the AIPE Family from Transition Metals to Discrete Near‐Infrared Lanthanide Complexes**