用于各种传感应用的上转换纳米磷化物

IF 4.1 Q1 CHEMISTRY, ANALYTICAL
Jitender Kumar, Indrajit Roy
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引用次数: 0

摘要

背景上转换纳米磷酸盐(UCNPs)由掺杂特定稀土离子的某些纳米级无机主材料组成。它们表现出光子上转换现象,即在连续吸收两个或多个低能光子后,发出多个高能光子。此外,它们还具有其他诱人的光学特性,如近红外吸收、尖锐的发射带、优异的光稳定性和高量子产率。这些特性使 UCNPs 成为成像、传感和治疗等多种光学应用的有利探针。概述UCNPs 已被用作特异性超灵敏探针,用于传感各种分析物,如气体分子、金属离子、微粒、pH 值以及多种分子、生化物质和大分子。它们在近红外范围内的吸收和发射有助于在原位、体外和体内进行无背景生物传感。它们的多色发射允许一个合适的发射波段作为供体将能量传递给另一个附着的光学探针,而一个单独的发射波段则可作为比率测量传感应用中的内部参考。本综述深入探讨了 UCNPs 在基于能量转移机制的各种分析物光学传感中的广泛应用,并重点介绍了最近的发展情况。.重点是 UCNPs 的合成、表面功能化及其有效利用,尤其是在检测气体分子、pH 值变化、离子、自由基和疾病生物标记物方面。通过对 UCNPs 用途的细致研究,本综述旨在加深对其潜力的理解,并为未来光学传感领域的进步和挑战铺平道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Upconverting nanophosphors for various sensing applications

Upconverting nanophosphors for various sensing applications

Background

Upconverting nanophosphors (UCNPs) are composed of certain nanosized inorganic host materials doped with specific rare earth ions. They exhibit the phenomenon of photon upconversion, whereby the sequential absorption of two or more low energy photons is followed by luminescent emission of multiple photons with higher energy. In addition, they have other attractive optical features such as NIR-absorption, sharp emission bands, exceptional photostability and high quantum yield. These properties make UCNPs lucrative probes for number of optical applications, such as imaging, sensing and theranostics.

Overview

UCNPs have been used as specific and ultrasensitive probes for sensing of variety of analytes, such as gas molecules, metal ions, fine particles, pH and a number of molecules, biochemicals and macromolecules. Their absorption and emission in the NIR range facilitates the background free biosensing in situ, in vitro and in vivo. Their multicoloured emissions allow a suitable emission band to serve as a donor for energy transfer to another attached optical probe, while a separate emission band to serve as an internal reference in ratiometric sensing applications. This comprehensive review provides an in-depth exploration of the versatile applications of UCNPs in the optical sensing of various analytes based on energy transfer mechanisms, with emphasis on the recent developments. . The focus is on synthesizing UCNPs, surface functionalization, and their effective utilization especially in detecting gas molecules, pH changes, ions, free radicals, and disease biomarkers. Through a meticulous examination of the use of UCNPs, this review aims to contribute to a deeper understanding of their potential and pave the way for future advancements and challenges in optical sensing.

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来源期刊
Talanta Open
Talanta Open Chemistry-Analytical Chemistry
CiteScore
5.20
自引率
0.00%
发文量
86
审稿时长
49 days
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