APL Materials (May 2018)

Less severe processing improves carbon nanotube photovoltaic performance

  • Matthew J. Shea,
  • Jialiang Wang,
  • Jessica T. Flach,
  • Martin T. Zanni,
  • Michael S. Arnold

DOI
https://doi.org/10.1063/1.5026853
Journal volume & issue
Vol. 6, no. 5
pp. 056104 – 056104-7

Abstract

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Thin film semiconducting single walled carbon nanotube (s-SWCNT) photovoltaics suffer losses due to trapping and quenching of excitons by defects induced when dispersing s-SWCNTs into solution. We study these aspects by preparing photovoltaic devices from (6,5) carbon nanotubes isolated by different processes: extended ultrasonication, brief ultrasonication, and shear force mixing. Peak quantum efficiency increases from 28% to 38% to 49% as the processing harshness decreases and is attributed to both increasing s-SWCNT length and reducing sidewall defects. Fill-factor and open-circuit voltage also improve with shear force mixing, highlighting the importance of obtaining long, defect-free s-SWCNTs for efficient photoconversion devices.