Premium
Ink‐Free Reversible Optical Writing in Monolayers by Polymerization of a Trifunctional Monomer: Toward Rewritable “Molecular Paper”
Author(s) -
Müller Vivian,
Hungerland Tim,
Baljozovic Milos,
Jung Thomas,
Spencer Nicholas D.,
Eghlidi Hadi,
Payamyar Payam,
Schlüter A. Dieter
Publication year - 2017
Publication title -
advanced materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 10.707
H-Index - 527
eISSN - 1521-4095
pISSN - 0935-9648
DOI - 10.1002/adma.201701220
Subject(s) - polymerization , monomer , materials science , monolayer , photochemistry , fluorescence , chemical engineering , photopolymer , excimer , polymer chemistry , optical microscope , irradiation , polymer , nanotechnology , scanning electron microscope , optics , chemistry , composite material , physics , engineering , nuclear physics
A Langmuir–Blodgett film consisting of a dense array of trifunctional monomers bearing three 1,8‐diazaanthracene units is polymerized at an air/water interface or after transfer on solid substrates. The transfer does not affect the excimer fluorescence of the film, indicating that the monomers' packing with their diazaanthracene units stacked face‐to‐face is retained—a prerequisite for successful polymerization. The monomer film can be polymerized in confined areas on solid substrates by UV irradiation with a confocal microscope laser. The underlying chemistry of the polymerization, a [4+4]‐cycloaddition of the diazaanthracene units, leads to disappearance of the fluorescence in the irradiated regions which enables writing into the monolayer on a µm scale—thus the term “molecular paper.” The reaction can be reversed by heating which leads to a recovery of the fluorescence and to erasing of the writing. Alternative pathways for this phenomenon are discussed and control experiments are conducted to rule them out.