Your search keyword '"Xu, Liang‐Jin"' showing total 6 results

1. Thermal and Vapor Induced Triple‐Mode Luminescent Switch of Manganese (II) Halides Hybrid.

Author

Xue, Shu‐Hua, Shi, Cui‐Mi, Xu, Liang‐Jin, and Chen, Zhong‐Ning

Subjects

MAGNETIC coupling, MANGANESE, HALIDES, VAPORS, ORGANIC solvents, DICHLOROMETHANE

Abstract

It is imminent to develop phosphors with multiple stimuli responses due to the increasing demand on anti‐counterfeiting and information encryption technologies. Here, a zero dimensional (0D) organic–inorganic hybrid (DPPE)2MnBr4·H2O (DPPE = 4,4‐Difluoropiperidine, 1), which emits green light and exhibits reversible thermo‐ and vapor‐luminescence responses to heat and organic solvents is reported. Specifically, when heated above 100 °C for 30 s, hybrid 1 transforms into yellow‐emitting hybrid 2. Upon exposure to dichloromethane (DCM), it transforms into a red‐emitting hybrid 3. Experimental analysis reveals that Mn2+‐Mn2+ magnetic coupling interactions and coordination configuration transformation are responsible for the obvious switching of photoluminescence. Owing to its extraordinary triple‐mode switching characteristics, enabling luminescence‐adjustable transformations such as green to yellow, green to red, and yellow to red emission, this metal‐halide hybrid is promising for the application in anti‐counterfeiting and information encryption. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tunable Luminescence on Indium Halide Hybrid Regulated by Sb 3+ Doping Concentration

Author

Shi, Cui‐Mi, primary, Xuan, Hong‐Li, additional, Wu, Yue, additional, Xu, Liang‐Jin, additional, and Chen, Zhong‐Ning, additional

Published

2022

3. Circularly Polarized Luminescence based on 0D Lead‐Free Antimony (III) Halide Hybrids

Author

Xuan, Hong‐Li, primary, Li, Jin‐Long, additional, Xu, Liang‐Jin, additional, Zheng, Da‐Sheng, additional, and Chen, Zhong‐Ning, additional

Published

2022

4. Tunable Luminescence on Indium Halide Hybrid Regulated by Sb3+ Doping Concentration.

Author

Shi, Cui‐Mi, Xuan, Hong‐Li, Wu, Yue, Xu, Liang‐Jin, and Chen, Zhong‐Ning

Subjects

LUMINESCENCE, DOPING agents (Chemistry), INDIUM, PHASE transitions, METAL halides, LUMINESCENCE spectroscopy

Abstract

Sb3+ doping strategy has proved to be an effective way to regulate the band gap and improve the photophysical properties of metal halides. Herein, Sb3+‐doped lead‐free indium halide hybrid InCl6(C4H12N2)2Cl·H2O:xSb3+ (0 ≤ x ≤ 1) is reported. Upon Sb3+‐doping, the weak emission of InCl6(C4H12N2)2Cl experiences a significant enhancement in emission intensity with near‐unity photoluminescence quantum yield (PLQY). The photophysical data fitted by the power‐law equation verifies self‐trapped exciton emission for the broadband emission. Interestingly, the emission experiences a gradual red‐shift with emission color changing from green to yellow and finally to orange as the Sb3+‐doped concentration increases. The single crystal X‐ray diffraction, excitation wavelengths‐dependent emission spectra, and the distortion degree calculation of InCl6(C4H12N2)2Cl·H2O:xSb3+ (0 ≤ x ≤ 1) indicate that the Sb3+ concentration dependent luminescence results from the synergistic effect of crystal phase transition, change of luminescence center, and the distortion of crystal structure. This achievement represents a successful strategy to achieve the photophysical properties modulation of metal halides for versatile optical applications. [ABSTRACT FROM AUTHOR]

Published

2023

5. Recent Advances in Luminescent Zero‐Dimensional Organic Metal Halide Hybrids

Author

Zhou, Chenkun, primary, Xu, Liang‐Jin, additional, Lee, Sujin, additional, Lin, Haoran, additional, and Ma, Biwu, additional

Published

2020

6. Recent Advances in Luminescent Zero‐Dimensional Organic Metal Halide Hybrids.

Author

Zhou, Chenkun, Xu, Liang‐Jin, Lee, Sujin, Lin, Haoran, and Ma, Biwu

Subjects

*METAL halides, *ORGANIC conductors, *ORGANOMETALLIC compounds, *HYBRID systems, *HALIDES, *HYBRID securities

Abstract

Organic metal halide hybrids (OMHHs) have attracted great research attention owing to their exceptional structure and property tunability. Using appropriate organic and inorganic metal halide components, OMHHs with controlled dimensionalities at the molecular level, from 3D to 2D, 1D, and 0D structures, can be obtained. In 0D OMHHs, anionic metal halide polyhedrons are surrounded and completely isolated by organic cations to form single crystalline "host–guest" structures. These ionically bonded organic–inorganic hybrid systems often exhibit the intrinsic properties of individual metal halide species, for instance, highly efficient Stokes‐shifted broadband emissions. In this progress report, the recent advances in the development and study of luminescent 0D OMHHs are discussed: from synthetic structural control to fundamental understanding of the structure–property relationship and device integration. [ABSTRACT FROM AUTHOR]

Published

2021