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Fabrication of transparent ultrathin films with ordered solid luminescence by LBL assembly of CdTe quantum dots with exfoliated vermiculite
Abstract Quantum dots luminescent films have great potential for application in lasers, optoelectronics, solid-state light-emitting diodes, and optical devices. This work describes multilayer ordered vermiculite-based luminescent thin films (VLFs) with 2D architecture via layer-by-layer assembly of PDDA-modified CdTe QDs on exfoliated vermiculite (VMT). The assembly of negative CdTe QDs and negative VMT was achieved, overcoming the nonluminance of solid CdTe QDs. The ordered VLFs possess periodic layered structures involving heterogeneous superlattices associated with individual VMT layers. The rational combination of luminescent components affords precise control of the emission wavelength and intensity, resulting in a gradual change in luminescence intensity in the selected light-emitting spectral region upon increasing the number of deposition cycles. Compared to the CdTe QDs, the fluorescence lifetime of VLFs is improved owing to the ordered structure. This work provides a facile approach to fabricate heterogeneous VLFs with high luminous properties and optical stability, which is expected to prevent easy aggregation of luminescent materials and can be potentially applied in light displays and multicolor optical and optoelectronic devices.
Graphical abstract A transparent ultrathin films with 2D ordered solid luminescence is developed from the assembly of negative CdTe quantum dots with negative vermiculite nanosheets by polycation PDDA modification, which exhibited improved fluorescence lifetime attributing to periodic layered structure. Display Omitted
Highlights Vermiculite nanosheets are exfoliated by high-speed cutting and centrifugating approach. The assembly of negative CdTe QDs and negative VMT was achieved by polycation PDDA modification. Ordered vermiculite-based luminescent thin films (VLFs) overcomes non-luminance or weak fluorescence of solid CdTe QDs. The VLFs with periodic layered structure exhibits improved fluorescence lifetime.
Fabrication of transparent ultrathin films with ordered solid luminescence by LBL assembly of CdTe quantum dots with exfoliated vermiculite
Abstract Quantum dots luminescent films have great potential for application in lasers, optoelectronics, solid-state light-emitting diodes, and optical devices. This work describes multilayer ordered vermiculite-based luminescent thin films (VLFs) with 2D architecture via layer-by-layer assembly of PDDA-modified CdTe QDs on exfoliated vermiculite (VMT). The assembly of negative CdTe QDs and negative VMT was achieved, overcoming the nonluminance of solid CdTe QDs. The ordered VLFs possess periodic layered structures involving heterogeneous superlattices associated with individual VMT layers. The rational combination of luminescent components affords precise control of the emission wavelength and intensity, resulting in a gradual change in luminescence intensity in the selected light-emitting spectral region upon increasing the number of deposition cycles. Compared to the CdTe QDs, the fluorescence lifetime of VLFs is improved owing to the ordered structure. This work provides a facile approach to fabricate heterogeneous VLFs with high luminous properties and optical stability, which is expected to prevent easy aggregation of luminescent materials and can be potentially applied in light displays and multicolor optical and optoelectronic devices.
Graphical abstract A transparent ultrathin films with 2D ordered solid luminescence is developed from the assembly of negative CdTe quantum dots with negative vermiculite nanosheets by polycation PDDA modification, which exhibited improved fluorescence lifetime attributing to periodic layered structure. Display Omitted
Highlights Vermiculite nanosheets are exfoliated by high-speed cutting and centrifugating approach. The assembly of negative CdTe QDs and negative VMT was achieved by polycation PDDA modification. Ordered vermiculite-based luminescent thin films (VLFs) overcomes non-luminance or weak fluorescence of solid CdTe QDs. The VLFs with periodic layered structure exhibits improved fluorescence lifetime.
Fabrication of transparent ultrathin films with ordered solid luminescence by LBL assembly of CdTe quantum dots with exfoliated vermiculite
You, Houmei (author) / Zhang, Kewei (author) / Zhang, Xiangkun (author) / Ding, Huiping (author) / Shen, Yiwen (author) / Feng, Yongjun (author) / Hou, Jinpeng (author) / WeiliangTian (author)
Applied Clay Science ; 230
2022-09-16
Article (Journal)
Electronic Resource
English
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