A high precision method for length-based separation of carbon nanotubes using bio-conjugation, SDS-PAGE and silver staining.

Zahra Borzooeian,Amirhasan Nourbakhsh,Mohammad E Taslim,Giti Borzooeian,Omid Ghasemi,Saina Rezvani,Valentin Ceña

doi:10.1371/journal.pone.0197972

Abstract

Parametric separation of carbon nanotubes, especially based on their length is a challenge for a number of nano-tech researchers. We demonstrate a method to combine bio-conjugation, SDS-PAGE, and silver staining in order to separate carbon nanotubes on the basis of length. Egg-white lysozyme, conjugated covalently onto the single-walled carbon nanotubes surfaces using carbodiimide method. The proposed conjugation of a biomolecule onto the carbon nanotubes surfaces is a novel idea and a significant step forward for creating an indicator for length-based carbon nanotubes separation. The conjugation step was followed by SDS-PAGE and the nanotube fragments were precisely visualized using silver staining. This high precision, inexpensive, rapid and simple separation method obviates the need for centrifugation, additional chemical analyses, and expensive spectroscopic techniques such as Raman spectroscopy to visualize carbon nanotube bands. In this method, we measured the length of nanotubes using different image analysis techniques which is based on a simplified hydrodynamic model. The method has high precision and resolution and is effective in separating the nanotubes by length which would be a valuable quality control tool for the manufacture of carbon nanotubes of specific lengths in bulk quantities. To this end, we were also able to measure the carbon nanotubes of different length, produced from different sonication time intervals.

Highlights

Various techniques of synthesizing carbon nanotubes (CNTs) produce nanotubes with different lengths, diameters, and structures
The results showed that there is no significant difference in XRD patterns between the free and conjugated lysozymes, revealing either the adsorption or absorption of lysozyme onto single-walled carbon nanotubes (SWCNTs)
We have demonstrated a combination of bio-conjugation, sodium dodecyl sulfate (SDS)-PAGE, and silver staining to length-based separate CNTs and to measure the lengths of the resulted nanotubes using electrophoretic mobility values in an acrylamide gel

Summary

Introduction

Various techniques of synthesizing carbon nanotubes (CNTs) produce nanotubes with different lengths, diameters, and structures. A high precision method for length-based separation of carbon nanotubes interconnects [1], sensors [2], energy storage and energy conversion devices, hydrogen storage [3,4,5], nanotube transistors [6, 7], and nanomedicine [8] structural parameters have considerable impact on the reactivity of carbon nanotubes. Any new technique that is used to separate and purify nanotubes in a scalable, reproducible, and simple manner needs to measure the morphological parameters (diameter and length) of CNTs. Length of nanotubes have been demonstrated to have positive correlation on thermal and electrical activities, with longer multi-wall carbon nanotubes (MWCNTs) resulting in higher thermal and electrical conductivities [9]. Length measurement is needed to control and reduce the toxicity to achieve green chemistry of CNTs

Methods

Results

Discussion

Conclusion