氮化硼量子点的一步合成：简单化学与精细纳米技术的结合

One-Step Synthesis of Boron Nitride Quantum Dots: Simple Chemistry Meets Delicate Nanotechnology.

作者信息

Liu Bingping, Yan Shihai, Song Zhongqian, Liu Mengli, Ji Xuqiang, Yang Wenrong, Liu Jingquan

机构信息

College of Materials Science and Engineering, Laboratory of Fiber Materials and Modern Textile, Growing Base for State Key Laboratory, Qingdao University, Qingdao, 266071, China.

College of Chemistry and Pharmaceutical Sciences, Qingdao Agricultural University, 266109, China.

出版信息

Chemistry. 2016 Dec 23;22(52):18899-18907. doi: 10.1002/chem.201603935. Epub 2016 Nov 29.

DOI:10.1002/chem.201603935

PMID:27896863

Abstract

Herein, a conceptually new and straightforward aqueous route is described for the synthesis of hydroxyl- and amino-functionalized boron nitride quantum dots (BNQDs) with quantum yields (QY) as high as 18.3 % by using a facile bottom-up approach, in which a mixture of boric acid and ammonia solution was hydrothermally treated in one pot at 200 °C for 12 h. The functionalized BNQDs, with excellent photoluminescence properties, could be easily dispersed in an aqueous medium and applied as fluorescent probes for the detection of ferrous (Fe ) and ferric (Fe ) ions with excellent selectivity and low detection limits. The mechanisms for the hydrothermal reaction and fluorescence quenching were also simulated by using density functional theory (DFT), which confirmed the feasibility and advantages of this strategy. It provides a scalable and eco-friendly method for preparation of BNQDs with good dispersability and could also be generalized to the synthesis of other 2D quantum dots and nanoplates.

摘要

在此，描述了一种概念上新的且直接的水相合成路线，通过简便的自下而上方法合成具有高达18.3%量子产率（QY）的羟基和氨基官能化氮化硼量子点（BNQDs），其中硼酸和氨溶液的混合物在200℃下于一个反应釜中进行水热反应12小时。功能化的BNQDs具有优异的光致发光性能，可轻松分散于水介质中，并用作荧光探针，用于检测亚铁（Fe²⁺）和铁（Fe³⁺）离子，具有出色的选择性和低检测限。还利用密度泛函理论（DFT）模拟了水热反应和荧光猝灭的机理，证实了该策略的可行性和优势。它为制备具有良好分散性的BNQDs提供了一种可扩展且环保的方法，并且还可推广到其他二维量子点和纳米片的合成。

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氮化硼量子点的一步合成：简单化学与精细纳米技术的结合

One-Step Synthesis of Boron Nitride Quantum Dots: Simple Chemistry Meets Delicate Nanotechnology.

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