Your search keyword '"Xiao, Tangxin"' showing total 3 results

1. High-Performance Hybrid Phototheranostics for NIR-IIb Fluorescence Imaging and NIR-II-Excitable Photothermal Therapy.

Author

Wang, Qi, Zhang, Xinmin, Tang, Youguang, Xiong, Yanwei, Wang, Xu, Li, Chunlai, Xiao, Tangxin, Lu, Feng, and Xu, Mengze

Subjects

FLUORESCENCE, PHOTOTHERMAL conversion, CARBOXYL group, OPTICAL images, ANGIOGRAPHY

Abstract

Photothermal therapy operated in the second near-infrared (NIR-II, 1000–1700 nm) window and fluorescence imaging in the NIR-IIb (1500–1700 nm) region have become the most promising techniques in phototheranostics. Their combination enables simultaneous high-resolution optical imaging and deep-penetrating phototherapy, which is essential for high-performance phototheranostics. Herein, carboxyl-functionalized small organic photothermal molecules (Se-TC) and multi-layered NIR-IIb emissive rare-earth-doped nanoparticles (NaYF4:Yb,Er,Ce@NaYF4:Yb,Nd@NaYF4, RENP) were rationally designed and successfully synthesized. Then, high-performance hybrid phototheranostic nanoagents (Se-TC@RENP@F) were easily constructed through the coordination between Se-TC and RENP and followed by subsequent F127 encapsulation. The carboxyl groups of Se-TC can offer strong binding affinity towards rare-earth-doped nanoparticles, which help improving the stability of Se-TC@RENP@F. The multilayered structure of RENP largely enhance the NIR-IIb emission under 808 nm excitation. The obtained Se-TC@RENP@F exhibited high 1064 nm absorption (extinction coefficient: 24.7 L g−1 cm−1), large photothermal conversion efficiency (PCE, 36.9%), good NIR-IIb emission (peak: 1545 nm), as well as great photostability. Upon 1064 nm laser irradiation, high hyperthermia can be achieved to kill tumor cells efficiently. In addition, based on the excellent NIR-IIb emission of Se-TC@RENP@F, in vivo angiography and tumor detection can be realized. This work provides a distinguished paradigm for NIR-IIb-imaging-guided NIR-II photothermal therapy and establishes an artful strategy for high-performance phototheranostics. [ABSTRACT FROM AUTHOR]

Published

2023

2. Anion-Complexation-Induced Emission Based on Aggregation-Induced Emission Fluorophore.

Author

Ren, Dongxing, Zhang, Liangliang, Qian, Hongwei, and Xiao, Tangxin

Subjects

COORDINATION polymers, CHEMORECEPTORS, SUPRAMOLECULAR chemistry, ANIONS

Abstract

Aggregation-induced emission (AIE) materials have attracted increasing research interest in recent years due to their excellent fluorescence properties in an aggregated state. Concurrently, anion coordination interactions have played a key role in the development of supramolecular assemblies and sensors. In the past decade, investigations towards fluorescent materials or sensors based on AIE and anion coordination interactions are continuously being reported. In this minireview, we briefly summarize the burgeoning progress of AIE-based materials and sensors driven by anion coordination interactions. We believe that an increasing number of achievements in anion-coordination induced emission materials will appear in the near future and will demonstrate potential applications, including bio-imaging and bio-sensors. [ABSTRACT FROM AUTHOR]

Published

2023

3. Non-Covalent Dimer as Donor Chromophore for Constructing Artificial Light-Harvesting System in Water.

Author

Zhang, Liangliang, Qian, Hongwei, Wu, Zhiying, Zhang, Qiaona, Li, Shengke, Cheng, Ming, and Xiao, Tangxin

Subjects

ANTENNAS (Electronics), ENERGY transfer, HYDROGEN bonding, FLUOROPHORES, DIMERS, TETRAPHENYLETHYLENE

Abstract

Dynamic emissive materials in aqueous media have received much attention owing to their ease of preparation, tunable luminescence and environmental friendliness. However, hydrophobic fluorophores usually suffer from aggregation-caused quenching in water. In this work, we constructed an artificial light-harvesting system by using a non-covalent aggregation-induced emission dimer as antenna and energy donor. The dimer is quadruple hydrogen bonded from a ureidopyrimidinone derivative (M) containing a tetraphenylethylene group. The dispersed nano-assemblies based on the dimer in aqueous media were fabricated with the help of surfactant. By loading a hydrophobic acceptor molecule DBT into the nano-assemblies, man-made light-harvesting nanoparticles were fabricated, showing considerable energy transfer efficiency and a relatively high antenna effect. Additionally, the fluorescence color of the system can be gradually tuned by varying the content of the acceptors. This study provides a general way for the construction of an aqueous light-harvesting system based on a supramolecular dimer, which is important for potential application in luminescent materials. [ABSTRACT FROM AUTHOR]

Published

2022