Abstract
Control orientation and interparticle spacing of self-assembled nanoparticles can provide versatile functional materials for optical and electronic applications. In this study, we have obtained a glass substratum with tunable optical properties using flowing control and bimolecular competition. The surface of glass was modified from immobilized stretchable gold nanoparticle chains. The long and periodic single-stranded DNA nanotemplates were prepared using Phi29 DNA polymerase molecular machinery according to precise molecular biology regulation. Gold nanoparticle (Au NP) docked at the default sites of the nanotemplates and optical anisotropic absorption were enhanced by approximately 55 % by using tunable, flexible, and oriented one-dimensional metallic nanostructures.
Keywords: DNA nanotemplates, Gold nanoparticle chains, Flexible metallic nanowires, Interparticle spacing, Molecular machinery, Optical anisotropy
Current Organic Chemistry
Title:Alignment of Stretchable Nanoparticle Chains with Tunable Optical Properties Formed from Molecular Machinery
Volume: 17 Issue: 2
Author(s): Ming-Yu Lin, Yen-Pei Lu, Yuh-Shyong Yang, Hsuen-Li Chen, Chih-Hui Yang, Alexandru Mihai Grumezescu, Eng-Chi Wang and Yu-Sheng Lai
Affiliation:
Keywords: DNA nanotemplates, Gold nanoparticle chains, Flexible metallic nanowires, Interparticle spacing, Molecular machinery, Optical anisotropy
Abstract: Control orientation and interparticle spacing of self-assembled nanoparticles can provide versatile functional materials for optical and electronic applications. In this study, we have obtained a glass substratum with tunable optical properties using flowing control and bimolecular competition. The surface of glass was modified from immobilized stretchable gold nanoparticle chains. The long and periodic single-stranded DNA nanotemplates were prepared using Phi29 DNA polymerase molecular machinery according to precise molecular biology regulation. Gold nanoparticle (Au NP) docked at the default sites of the nanotemplates and optical anisotropic absorption were enhanced by approximately 55 % by using tunable, flexible, and oriented one-dimensional metallic nanostructures.
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Cite this article as:
Lin Ming-Yu, Lu Yen-Pei, Yang Yuh-Shyong, Chen Hsuen-Li, Yang Chih-Hui, Mihai Grumezescu Alexandru, Wang Eng-Chi and Lai Yu-Sheng, Alignment of Stretchable Nanoparticle Chains with Tunable Optical Properties Formed from Molecular Machinery, Current Organic Chemistry 2013; 17 (2) . https://dx.doi.org/10.2174/1385272811317020010
DOI https://dx.doi.org/10.2174/1385272811317020010 |
Print ISSN 1385-2728 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-5348 |
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