2D Titanium Carbide MXene and Single-Molecule Fluorescence: Distance-Dependent Nonradiative Energy Transfer and Leaflet-Resolved Dye Sensing in Lipid Bilayers
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Manzanares, L. and Spurling, D. and Szalai, A.M. and Schröder, T. and Bÿber, E. and Ferrari, G. and Dagleish, M.R.J. and Nicolosi, V. and Tinnefeld, P., 2D Titanium Carbide MXene and Single-Molecule Fluorescence: Distance-Dependent Nonradiative Energy Transfer and Leaflet-Resolved Dye Sensing in Lipid Bilayers, Advanced Materials, 2024
Abstract
Despite their growing popularity, many fundamental properties and
applications of MXene materials remain underexplored. Here, the
nonradiative energy transfer properties of 2D titanium carbide MXene are
investigated and their application in single-molecule biosensing is explored
for the first time. DNA origami positioners are used for single dye placement
immobilized by a specific chemistry based on glycine-MXene interactions,
allowing precise control of their orientation on the surface. Each DNA origami
structure carries a single dye molecule at predetermined heights.
Single-molecule fluorescence confocal microscopy reveals that energy transfer
of an organic emitter (ATTO 542) on transparent thin films made of spincast
Ti 3 C 2 Tx flakes follows a cubic distance dependence, where 50% of energy
transfer efficiency is reached at 2.7 nm (d0 ). MXenes are applied as
short-distance spectroscopic nanorulers, determining z distances of
dye-labeled supported lipid bilayers fused on MXene’s hydrophilic surface.
Hydration layer (2.1 nm) and lipid bilayer thickness (4.5 nm) values that agree
with the literature are obtained. These results highlight titanium carbide
MXenes as promising substrates for single-molecule biosensing of ultrathin
assemblies, owing to their sensitivity near the interface, a distance regime
that is typically inaccessible to other energy transfer tools
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Sponsor: Science Foundation Ireland (SFI)
Grant Number: 20/FFP-A/8950
Sponsor: Science Foundation Ireland (SFI)
Grant Number: 2/RC/2278_P2
Author's Homepage: http://people.tcd.ie/nicolov
Type of material: Journal Article

