A. S. Linnik scite author profile

The pH effect on luminescence and absorption spectra of semiconducting Single-walled carbon nanotubes (SWNTs) (produced by CoMoCATm method) covered with anionic surfactants (sodium dodecyl sulfate (SDS) and sodium dodecylbenzene sulfonate (SDBS)) or DNA in aqueous solutions have been studied in visible and near-infrared (NIR) ranges. With lowering pH from 11 till 3 the emission intensity of SWNTs decreases, the largest luminescence quenching was observed with nanotubes covered by SDS intensity of which dropped by 95% and the smallest one occurred in SWNTs covered by SDBS, which decreased by 35%. The absorption intensity of the most intensive band corresponding to (6,5) nanotube (E 11 S transition) covered by SDBS or DNA changes weakly in the range ph = 3 -11, however, in SDS surrounding the intensity of this band is reduced essentially. This observation indicated that SDBS protection ability of SWNT against pH influence is more significant compared to that of SDS. DNA takes the intermediate position among surfactants studied. The possible reason of such pH influence on optical properties of SWNTs in different surfactants or polymer surrounding is discussed.Keywords: Single-walled carbon nanotubes / pH effect / luminescence / absorption / SDS / SDBS / DNA / Der Einfluss des pH-Wertes auf die Lumineszenz-und Absorption-Spektren von Kohlenstoffnanoröhren (CNT) (synthetisiert nach der CoMoCat Methode), die mit anionische Tensiden(SDBS oder SDS) oder DNA bedeckt sind, in wässriger Suspension wurde im sichtbaren Bereich und Nahinfrarotbereich untersucht. Bei Verringerung des pH-Wertes von 11 bis auf 3 vermindert sich die Leuchtstärke der CNTs, wobei die größte Lumineszenzlöschung (um 95%) bei Nanoröhren mit SDS-Funktionalisierung Beschichtung beobachtet wurde. Die geringste Lumineszenzlöschung (um 35%) wurde bei Nanoröhren mit SDBS-Beschichtung beobachtet. Der Absorptionsgrad der intensiveren Bande, der einer (6,5)-Nanoröhre mit SDBS-bzw. DNA-Beschichtung entspricht (E 11 S -Übergang), änderte sich wenig im pH-Wert-Bereich von 3 bis 11. Bei einer SDS-Funktionalisierung sank die Intensität dieser Bande. Diese Beobachtung zeigt, dass SDBS den Einfluss des pH-Wertes wesentlich besser zurückdrängen kann als SDS. DNA nimmt dabei einen Mittelwert ein. Mögliche Ursachen des Einflusses des pH-Wertes auf die optische Eigenschaften der CNTs bei Beschichtung mit verschiedenen Tensiden oder Polymeren werden diskutiert.

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Enhancement of single-walled nanotubes luminescence intensity upon dithiothreitol doping

Kurnosov

Linnik

Leontiev

et al. 2014

Opt. Spectrosc.

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In the present work the influence of reducing agent dithiothreitol doping on photoluminescence spectra of nanotubes with adsorbed biopolymers (single stranded DNA and polyC) in aqueous suspensions and films was studied. It is revealed that greater intensity enhancement at 10 -3 mol/L dithiothreitol concen tration is observed for (7,5) and (6,5) nanotubes in suspension with single stranded DNA (by more than 150% of initial intensity) comparing to polyC suspension (less than 60%) while for (6,4) and (9,1) nanotubes enhancement is less than 50% for both suspensions. Photoluminescence intensity increasing for nanotube film with DNA is less than 50% without noticeable dependence on nanotube chirality. It is assumed, that dif ferent influence of biopolymers on nanotube luminescence intensity enhancement is due to their different coverage of nanotube surface.

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A. S. Linnik

Photoluminescence intensity enhancement in SWNT aqueous suspensions due to reducing agent doping: Influence of adsorbed biopolymer

Comparative study on protection properties of anionic surfactants (SDS, SDBS) and DNA covering of single‐walled carbon nanotubes against pH influence: luminescence and absorption spectroscopy study

Enhancement of single-walled nanotubes luminescence intensity upon dithiothreitol doping

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