一种将蛋白质包覆的纳米材料在反胶束相中转化为均匀荧光纳米团簇的新相转移策略。

A New Phase Transfer Strategy to Convert Protein-Capped Nanomaterials into Uniform Fluorescent Nanoclusters in Reverse Micellar Phase.

作者信息

Sahu Dillip Kumar, Pal Tapas, Sahu Kalyanasis

机构信息

Department of Chemistry, Indian Institute of Technology Guwahati, Guwahati, Assam, India.

出版信息

Chemphyschem. 2018 Sep 5;19(17):2153-2158. doi: 10.1002/cphc.201800191. Epub 2018 Jun 11.

DOI:10.1002/cphc.201800191

PMID:29683246

Abstract

A new phase transfer strategy to convert aqueous phase protein-protected nanomaterials into fluorescent nanoclusters in the reverse micellar environment is introduced using bovine serum albumin (BSA)-protected silver nanoclusters (AgNCs) and nanoparticles (AgNPs) as an example. The basic pH employed in the fabrication of protein-protected nanoclusters induces the the protein capping to be negatively charged and facilitates the transfer process of the nanomaterials from aqueous phase to a cationic gemini surfactant (16-2-16)/hexane/hexanol/water reverse micelle (RM) phase. The original fluorescence characteristics of the seed nanocluster is retained after the transfer process. Strikingly, when both the nanomaterials (AgNCs and AgNPs) coexist in the aqueous feed solution, they are exclusively converted into uniform nanoclusters in the RM extract with enhanced fluorescence intensity.

摘要

以牛血清白蛋白（BSA）保护的银纳米簇（AgNCs）和纳米颗粒（AgNPs）为例，介绍了一种新的相转移策略，该策略可在反胶束环境中将水相蛋白质保护的纳米材料转化为荧光纳米簇。制备蛋白质保护纳米簇时所采用的碱性pH值会使蛋白质帽带负电荷，并促进纳米材料从水相转移到阳离子双子表面活性剂（16-2-16）/己烷/己醇/水反胶束（RM）相。转移过程后，种子纳米簇的原始荧光特性得以保留。引人注目的是，当纳米材料（AgNCs和AgNPs）同时存在于水相进料溶液中时，它们会在RM萃取物中专门转化为均匀的纳米簇，且荧光强度增强。

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一种将蛋白质包覆的纳米材料在反胶束相中转化为均匀荧光纳米团簇的新相转移策略。

A New Phase Transfer Strategy to Convert Protein-Capped Nanomaterials into Uniform Fluorescent Nanoclusters in Reverse Micellar Phase.

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