Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/5321
Título
Why is the Sensory Response of Organic Probes within a Polymer Film Different in Solution and in the Solid-State? Evidence and Application to the Detection of Amino Acids in Human Chronic Wounds
Autor
Publicado en
Polymers. 2020, V. 12, n. 6, 1249
Editorial
MDPI
Fecha de publicación
2020-06
DOI
10.3390/polym12061249
Abstract
We anchored a colourimetric probe, comprising a complex containing copper (Cu(II)) and
a dye, to a polymer matrix obtaining film‐shaped chemosensors with induced selectivity toward
glycine. This sensory material is exploited in the selectivity detection of glycine in complex mixtures
of amino acids mimicking elastin, collagen and epidermis, and also in following the protease activity
in a beefsteak and chronic human wounds. We use the term inducing because the probe in solution
is not selective toward any amino acid and we get selectivity toward glycine using the solid‐state.
Overall, we found that the chemical behaviour of a chemical probe can be entirely changed by
changing its chemical environment. Regarding its behaviour in solution, this change has been
achieved by isolating the probe by anchoring the motifs in a polymer matrix, in an amorphous state,
avoiding the interaction of one sensory motif with another. Moreover, this selectivity change can be
further tuned because of the effectiveness of the transport of targets both by the physical nature of
the interface of the polymer matrix/solution, where the target chemicals are dissolved, for instance,
and inside the matrix where the recognition takes place. The interest in chronic human wounds is
related to the fact that our methods are rapid and inexpensive, and also considering that the protease
activity can correlate with the evolution of chronic wounds.
Palabras clave
solid‐state chemosensors
sensory polymers
amino acids
chronic wounds
Materia
Química
Chemistry
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