Fluorescent Platforms Based on Organic Molecules for Chemical and Biological Detection

DOI：10.1002/pssr.201800521 期刊：physica status solidi (RRL) - Rapid Research Letters 出版年份：2018 更新时间：2025-09-23 15:21:01

摘要： Fluorescent platforms based on organic molecules have attracted great attention in the field of chemical and biological detection because of their high detection efficiency and sensitivity. Strategies in fluorescent platform design with controlled luminescence properties based on F?rster resonance energy transfer, excimer/exciplex formation, and metal-enhanced fluorescence mechanisms are reviewed herein. Attention is focused on the photophysical processes of fluorescent molecules in their interactions with other components as well as with the target. Color- and intensity-tunable luminescence from energy or electron transfer and the electronic structures of fluorescent molecules are discussed. On the basis of the photophysical properties of fluorescent molecules, their responsive fluorescence signals, which reflect specific inter- and intra-molecular interactions, are particularly effective for chemical and biological detection.

关键词： detection fluorescent platform fluorescent molecules photophysical property tunable luminescence

作者： Xiaoyu Wang，Lu Liu，Shuxian Zhu，Lidong Li

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研究概述实验方案

研究目的

To review the design strategies of fluorescent platforms based on organic molecules for chemical and biological detection, focusing on the mechanisms of F?rster resonance energy transfer, excimer/exciplex formation, and metal-enhanced fluorescence.

研究成果

The review highlights the potential of fluorescent platforms based on organic molecules for chemical and biological detection, emphasizing the importance of understanding photophysical processes to design effective platforms. It suggests that resolving current challenges, such as achieving specific fluorescence responses and developing platforms for in vivo applications, could further advance the field.

研究不足

The complexity of detection conditions can make it challenging to achieve specific desired fluorescence responses. The design of fluorescent platforms requires careful control of molecular structures to optimize interactions between components and target analytes. Additionally, the development of new detection systems is driven by application demands, such as the need for dynamic fluorescence detection platforms with both stability and responsiveness.

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