The fluorescent LCP was obtained by the copolymerization of one LC monomer (CH) and another fluorescent monomer containing α -cyanostilbene units (TP), designated as PCHTP, and it can be used to fabricate a photoinduced dual-mode luminescence pattern for information storage and encryption.
Fluorescent metal nanoclusters: prospects for photoinduced electron transfer and energy Herein, we have focused on the energy harvesting phenomena of Au-, Ag-, and Cu-based MNCs and elaborated on different ways to apply them.
It demonstrates that energy storage and conversion to electrical energy is realized in the [CoGa] crystals, which is different from typical polar pyroelectric compounds that exhibit the conversion
Photoinduced electron transfer (PeT) between the photoactive cage and the encapsulated Fluorescein and photoinduced energy transfer (PET) from the cage to encapsulated Rose Bengal have been observed by steady-state and time-resolved emission spectroscopy.中文翻译: 基于热激活延迟荧光配体和包封的荧光染料的光敏笼中的
These results offer an effective strategy for controlling the phase of MOST compounds and maximizing their energy storage densities, which may be broadly applicable to other E–Z photoswitches for energy applications.
These results offer an effective strategy for controlling the phase of MOST compounds and maximizing their energy storage densities, which may be broadly applicable to other E–Z photoswitches for energy applications.
The photoinduced spin crossover switched the energy transfer from the fluorophore to the Fe II ion, resulting in fluorescence modulation. The presented results provide a novel approach for developing optical memory and sensors via electron rearrangement of
Herein, we report a host–guest approach by using a tetraphenylethene-based octacationic cage and fluorescent dyes to construct artificial photofunctional systems with energy and electron transfer functions.
This review presents an overview of the development of visible-light responsive azo-based materials, covering molecular design strategies and their applications in energy storage. Recent efforts aimed at enhancing the performance of azo-based energy storage materials are highlighted.
Herein, we report a host–guest approach by using a tetraphenylethene-based octacationic cage and fluorescent dyes to construct artificial photofunctional systems with energy and electron transfer functions.
In addition, ultrafast photoinduced electron transfer (PET) can be practised using MNCs under various circumstances. Herein, we have focused on the energy harvesting phenomena of Au-, Ag-, and Cu-based MNCs and
The applications of photoinduced electron transfer, one in solar energy storage and the other in polymeric photorefractive materials are reported. In the former case, two new kinds of polymers containing norbornadiene and carbazole pendants were synthesized.
This review presents an overview of the development of visible-light responsive azo-based materials, covering molecular design strategies and their applications in energy storage. Recent efforts aimed at enhancing the
The photoinduced spin crossover switched the energy transfer from the fluorophore to the Fe II ion, resulting in fluorescence modulation. The presented results provide a novel approach for developing optical memory and sensors via electron rearrangement of photoinduced spin crossover.
In addition, ultrafast photoinduced electron transfer (PET) can be practised using MNCs under various circumstances. Herein, we have focused on the energy harvesting phenomena of Au-, Ag-, and Cu-based MNCs and elaborated on different ways to apply them.
Finally, the dual-mode emission pattern with polarization luminescence and tunable photoluminescence was presented in the PCHTP film for information storage and encoding applications. This strategy provides a versatile platform for information storage and encoding using the photoresponsive fluorescent LCPs.
The fluorescent LCP was obtained by the copolymerization of one LC monomer (CH) and another fluorescent monomer containing α -cyanostilbene units (TP), designated as PCHTP, and it can be used to fabricate a photoinduced dual-mode luminescence pattern for information storage and encryption.
In addition, ultrafast photoinduced electron transfer (PET) can be practised using MNCs under various circumstances. Herein, we have focused on the energy harvesting phenomena of Au-, Ag-, and Cu-based MNCs and elaborated on different ways to apply them.
Such fluorescence photochromic molecules have been used to construct the photo-switchable system, thereby realizing a wide range of applications in information storage , energy conversion , and photonic devices .
On the other hand, ultrafast photoinduced electron transfer from dyes (e.g., ICG, AG, and AV) to the fluorescent cage can induce fluorescence quenching. This study provides an insight into the construction of artificial photofunctional systems with energy and electron transfer functions via a host–guest approach in solution.
Spectroscopic techniques that confirm energy transfer from the fluorescent cage to dyes (e.g., NiR, R700, and R800) are efficient, which induce the red shift of fluorescence. On the other hand, ultrafast photoinduced electron transfer from dyes (e.g., ICG, AG, and AV) to the fluorescent cage can induce fluorescence quenching.
