Robin Nicholas

Ultrafast charge separation at a polymer-single-walled carbon nanotube molecular junction.

Nano Lett 11:1 (2011) 66-72

Authors:

Samuel D Stranks, Christian Weisspfennig, Patrick Parkinson, Michael B Johnston, Laura M Herz, Robin J Nicholas

Abstract:

We have investigated the charge photogeneration dynamics at the interface formed between single-walled carbon nanotubes (SWNTs) and poly(3-hexylthiophene) (P3HT) using a combination of femtosecond spectroscopic techniques. We demonstrate that photoexcitation of P3HT forming a single molecular layer around a SWNT leads to an ultrafast (∼430 fs) charge transfer between the materials. The addition of excess P3HT leads to long-term charge separation in which free polarons remain separated at room temperature. Our results suggest that SWNT-P3HT blends incorporating only small fractions (1%) of SWNTs allow photon-to-charge conversion with efficiencies comparable to those for conventional (60:40) P3HT-fullerene blends, provided that small-diameter tubes are individually embedded in the P3HT matrix.

Ultrafast Charge Separation at a Single-walled Carbon Nanotube – Polymer Interface

MRS Advances Springer Nature 1286:1 (2011) 207

Authors:

Samuel D Stranks, Christian Weisspfennig, Patrick Parkinson, Michael B Johnston, Laura M Herz, Robin J Nicholas

Dynamic terahertz polarization in single-walled carbon nanotubes

Physical Review B - Condensed Matter and Materials Physics 82:8 (2010)

Authors:

XL Xu, P Parkinson, KC Chuang, MB Johnston, RJ Nicholas, LM Herz

Abstract:

We have investigated the anisotropic dynamic dielectric response of aligned and well-isolated single-walled carbon nanotubes using optical-pump terahertz (THz)-probe techniques. The polarization anisotropy measurements demonstrate that the THz radiation interacts only with radiation polarized parallel to the nanotubes which have been selectively excited by a polarized pump pulse thus allowing controlled THz polarization to be achieved from unaligned nanotubes. © 2010 The American Physical Society.

UV-vis absorption spectroscopy of carbon nanotubes: Relationship between the π-electron plasmon and nanotube diameter

Chemical Physics Letters 493:1-3 (2010) 19-23

Authors:

GA Rance, DH Marsh, RJ Nicholas, AN Khlobystov

Abstract:

The position and intensity of the π plasmon absorbance of a series of single-walled and multi-walled carbon nanotubes has been systematically investigated for the first time using ultraviolet-visible (UV-vis) absorption spectroscopy. All nanotube samples obey the Lambert-Beer law and exhibit similar extinction coefficients (∼50 mL/mg cm) regardless of their structure or method of preparation. The absolute wavelength (energy) of the π plasmon absorbance has been shown to vary with nanotube diameter as Eπ = 4.80 + 0.70/(dNT)2. This empirical relationship when correlated with nanotube pyramidalisation angle can be used to estimate the energy range for the π plasmon in a single sheet of graphene to be 4.8-4.9 eV. © 2010 Elsevier B.V. All rights reserved.

Synthesis and spectroscopic characterization of solution processable highly ordered polythiophene-carbon nanotube nanohybrid structures.

Nanotechnology 21:2 (2010) 025201

Authors:

T Schuettfort, HJ Snaith, A Nish, RJ Nicholas

Abstract:

We report on the synthesis and spectroscopic study of a novel highly ordered nanohybrid structure consisting of a single-walled carbon nanotube (SWNT) coated with highly crystalline regio-regular poly(3-hexylthiophene) (rrP3HT) and discuss the applicability of the nanohybrids in organic photovoltaics. The use of a solvent extraction technique allows the nanohybrids to be produced with a high yield and high purity. We find evidence that the crystallinity of rrP3HT is enhanced in the presence of SWNTs, which introduces a reduced optical band gap and increased carrier mobility in the polymer. Study of the photoluminescence excitation spectra of the SWNTs reveals an efficient energy transfer of excitons created on the rrP3HT to the SWNTs. This energy transfer is expected to limit our ability to use the nanohybrids as a charge separating interface and can therefore explain the low efficiency of P3HT-SWNT solar cells produced to date. In addition, careful consideration of the energy transfer is necessary when attempting to improve state of the art polymer-fullerene photovoltaic devices with SWNTs in order to make use of their high charge carrier mobilities and increased rrP3HT crystallinity.