表面活性剂诱导的氟传感器活性调节：一种最大化传感器效率的简单方法。

Surfactant-induced modulation of fluorosensor activity: a simple way to maximize the sensor efficiency.

作者信息

Mallick Arabinda, Mandal Malay C, Haldar Basudeb, Chakrabarty Alok, Das Paramita, Chattopadhyay Nitin

机构信息

Department of Chemistry, Jadavpur University, Calcutta 700 032, India.

出版信息

J Am Chem Soc. 2006 Mar 15;128(10):3126-7. doi: 10.1021/ja058359g.

DOI:10.1021/ja058359g

PMID:16522076

Abstract

Tuning of the sensory capability of a potentially bioactive indoloquinolizine system, namely, 3-acetyl-4-oxo-6,7-dihydro-12H-indolo-[2,3-a]-quinolizine (AODIQ), is described in a biomimicking micellar nanocage. It has been shown that surfactant concentration dictates the sensing behavior of the fluorophore toward physiologically essential trace metals, such as Cu2+. This is a simple, efficient, and general technique that allows one to utilize the sensor to its maximum efficiency.

摘要

在一个仿生胶束纳米笼中描述了对一种潜在生物活性吲哚喹嗪系统，即3-乙酰基-4-氧代-6,7-二氢-12H-吲哚并[2,3-a]喹嗪（AODIQ）的传感能力的调节。研究表明，表面活性剂浓度决定了荧光团对生理必需痕量金属（如Cu2+）的传感行为。这是一种简单、高效且通用的技术，能使传感器发挥最大效率。

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表面活性剂诱导的氟传感器活性调节：一种最大化传感器效率的简单方法。

Surfactant-induced modulation of fluorosensor activity: a simple way to maximize the sensor efficiency.

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