Advanced Functional Materials and Devices (AFMD) Group

Interrogating the impact of onion-like carbons on the supercapacitive properties of MXene (Ti2CTX)

Journal of Applied Physics AIP Publishing 126:13 (2019) 134301

Authors:

Irfan Habib, Philippe Ferrer, Sekhar C Ray, Kenneth I Ozoemena

Azetidinium as Cation in Lead Mixed Halide Perovskite Nanocrystals of Optoelectronic Quality

(2019)

Authors:

Sameer Vajjala Kesava, Yasser Hassan, Alberto Privitera, Aakash Varambhia, Henry J Snaith, Moritz K Riede

Tuning the ambipolar behaviour of organic field effect transistors via band engineering

AIP ADVANCES 9:3 (2019) ARTN 035202

Authors:

PR Warren, JFM Hardigree, AE Lauritzen, J Nelson, M Riede

Metal phthalocyanines interaction with Co mediated by a moiré graphene superlattice

The Journal of Chemical Physics AIP Publishing 150:5 (2019) 054704

Authors:

Giulia Avvisati, Pierluigi Gargiani, Pierluigi Mondelli, Francesco Presel, Luca Bignardi, Alessandro Baraldi, Maria Grazia Betti

Solubilization of carbon nanotubes with ethylene-vinyl acetate for solution-processed conductive films and charge extraction layers in perovskite solar cells

ACS Applied Materials and Interfaces American Chemical Society 11:1 (2018) 1185-1191

Authors:

Giulio Mazzotta, Markus Dollmann, Habisreutinger, Greyson Christoforo, Zhiping Wang, Henry Snaith, Moritz Riede, Robin Nicholas

Abstract:

Carbon nanotube (CNT) solubilization via non-covalent wrapping of conjugated semiconducting polymers is a common technique used to produce stable dispersions for depositing CNTs from solution. Here, we report the use of a non-conjugated insulating polymer, ethylene vinyl acetate (EVA), to disperse multi- and single-walled CNTs (MWCNT and SWCNT) in organic solvents. We demonstrate that despite the insulating nature of the EVA, we can produce semitransparent films with conductivities of up to 34 S/cm. We show, using photoluminescence spectroscopy, that the EVA strongly binds to individual CNTs, thus making them soluble, preventing aggregation, and facilitating the deposition of high-quality films. To prove the good electronic properties of this composite, we have fabricated perovskite solar cells using EVA/SWCNTs and EVA/MWCNTs as selective hole contact, obtaining power conversion efficiencies of up to 17.1%, demonstrating that the insulating polymer does not prevent the charge transfer from the active material to the CNTs.