光学活性量子点

V. Gerard, Joseph Govan, A. Loudon, A. Baranov, A. Fedorov, Y. Gun’ko
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引用次数: 1

摘要

我们研究的主要目标是开发新型技术上重要的光学活性量子点(QD)材料,研究其性能并探索其生物应用。本文首次以青霉胺的外消旋体(Rac)、D-和l -对映体为稳定剂,利用微波诱导加热制备了手性II-VI量子点。这些量子点的圆二色性(CD)研究表明,D-和l -青霉胺稳定的粒子产生镜像CD光谱,而Rac混合物制备的粒子仅显示弱信号。结果还表明,由于纳米晶体表面的缺陷或阱态,这些量子点在400 ~ 700 nm之间具有非常宽的发射带。这些量子点对包括氨基酸在内的多种生物物种具有高度特异性的手性识别。手性稳定剂的使用还可以制备出新的水溶性白色发光CdS纳米四足体,其在光谱的带边区域表现出圆二色性。手性CdS纳米四足动物的生物学测试显示,癌细胞对D-青霉胺稳定的纳米四足动物的摄取具有手性倾向。本研究将为手性纳米材料的化学研究及其在纳米生物技术、医学、光学化学和生物传感等领域的应用开辟新的领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optically active quantum dots
The main goal of our research is to develop new types of technologically important optically active quantum dot (QD) based materials, study their properties and explore their biological applications. For the first time chiral II-VI QDs have been prepared by us using microwave induced heating with the racemic (Rac), D- and L-enantiomeric forms of penicillamine as stabilisers. Circular dichroism (CD) studies of these QDs have shown that D- and L-penicillamine stabilised particles produced mirror image CD spectra, while the particles prepared with a Rac mixture showed only a weak signal. It was also demonstrated that these QDs show very broad emission bands between 400 and 700 nm due to defects or trap states on the surfaces of the nanocrystals. These QDs have demonstrated highly specific chiral recognition of various biological species including aminoacids. The utilisation of chiral stabilisers also allowed the preparation of new water soluble white emitting CdS nano-tetrapods, which demonstrated circular dichroism in the band-edge region of the spectrum. Biological testing of chiral CdS nanotetrapods displayed a chiral bias for an uptake of the D- penicillamine stabilised nano-tetrapods by cancer cells. It is expected that this research will open new horizons in the chemistry of chiral nanomaterials and their application in nanobiotechnology, medicine and optical chemo- and bio-sensing.
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