Abstract
The influence of tip sonication duration on the spectral characteristics of carbon single-walled nanotubes (SWNTs) in aqueous suspension with single-stranded DNA (ssDNA) has been studied by NIR luminescence, NIR absorption, and Raman spectroscopy. It was revealed that prolongation of sonication leads to weakening of the SWNT polymer coverage and appearance of additional defects on the nanotube surface. Prolongation of the tip sonication treatment of SWNT/ssDNA from 30 to 90 min leads to the increase of the number of individual nanotubes in the aqueous suspension, but it significantly decreases the photoluminescence (PL) from semiconducting SWNTs because more defects are formed on the nanotube surface. At probing the SWNT/ssDNA emission with cysteine or dithiothreitol (DTT) doping the nanotube aqueous suspension showed the different PL intensity enhancement depending on the duration of the sonication treatment and on the ability of these reducing agents to passivate emission-quenching defects on the carbon nanotube sidewall. The magnitude of the PL enhancement rises with sonication prolongation and depends on the nanotube chirality. Tight and ordered polymer coverage of (6,4) nanotubes hampers the access of the reducing agent to emission-quenching defects on the nanotube surface and provides the weaker PL intensity increasing while (7,5) nanotubes show the strongest reaction to the doping effect. The comparison of cysteine and DTT ability to passivate the emission-quenching defects showed the higher efficiency of DTT doping. This prevailing is explained by the stronger reducing activity of DTT which is determined by a lower redox potential of this molecule.
Highlights
The photoluminescence (PL) from single-walled carbon nanotubes (SWNTs) is characterized by a very high sensitivity to environmental/external influence, and this emission can be applied to various fields including bioimaging and sensing [1]
We have investigated the influence of tip sonication duration on the spectral characteristics of DNA-wrapped Single-walled carbon nanotube (SWNT) in aqueous suspension controlling the PL enhancement as a result of cysteine or DTT addition
It indicates that the PL intensity enhancement at the final cysteine concentration (10−3 M) is much higher in case of 90-min sonicated suspension
Summary
The photoluminescence (PL) from single-walled carbon nanotubes (SWNTs) is characterized by a very high sensitivity to environmental/external influence, and this emission can be applied to various fields including bioimaging and sensing [1]. Nanotubes emit in aqueous environment only if they are individualized [2] or in small bundles containing only semiconducting nanotubes. For this purpose, different surfactants or polymers are often exploited. Different surfactants or polymers are often exploited Among polymers such biopolymer as DNA (both oligonucleotides and long strands) is effective due to wrapping around nanotubes [13]. The addition of photoluminescence-restoring molecules can be useful for increase of the PL intensity and sensing applications and can serve as an indirect emission probe of the polymer coverage of SWNTs [17]
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