Unexpected luminescence of non-conjugated biomass-based polymers: new approach in photothermal imaging

Felipe de la Cruz-Martínez; Roger Bresolí-Obach; Iván Bravo; Carlos Alonso-Moreno; Daniel Hermida-Merino; Johan Hofkens; Agustín Lara-Sánchez; José A. Castro-Osma; Cristina Martín

doi:10.1039/d2tb02033e

Unexpected luminescence of non-conjugated biomass-based polymers: new approach in photothermal imaging

Felipe de la Cruz-Martínez
, Roger Bresolí-Obach
, Iván Bravo
, Carlos Alonso-Moreno
, Daniel Hermida-Merino
, Johan Hofkens
, Agustín Lara-Sánchez^*
, José A. Castro-Osma^*
, Cristina Martín^*

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

7 Citations (Scopus)

Abstract

Population growth, depletion of world resources and persistent toxic chemical production underline the need to seek new smart materials from inexpensive, biodegradable, and renewable feedstocks. Hence, “metal-free” ring-opening copolymerization to convert biomass carvone-based monomers into non-conventional luminescent biopolymers is considered a sustainable approach to achieve these goals. The non-conventional emission was studied in terms of steady-state and time-resolved spectroscopy in order to unravel the structure-properties for different carvone-based copolymers. The results highlighted the importance of the final copolymer folding structure as well as its environment in luminescent behavior (cluster-triggered emission). In all cases, their luminescent behavior is sensitive to small temperature fluctuations (where the minimum detected temperature is T_m ∼ 2 °C and relative sensitivity is S_r ∼ 6% °C) even at the microscopic scale, which endows these materials a great potential as thermosensitive smart polymers for photothermal imaging.

Original language	English
Journal	Journal of Materials Chemistry B
Volume	11
Issue number	2
DOIs	https://doi.org/10.1039/d2tb02033e
Publication status	Published - 14 Jan 2023

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title = "Unexpected luminescence of non-conjugated biomass-based polymers: new approach in photothermal imaging",

abstract = "Population growth, depletion of world resources and persistent toxic chemical production underline the need to seek new smart materials from inexpensive, biodegradable, and renewable feedstocks. Hence, “metal-free” ring-opening copolymerization to convert biomass carvone-based monomers into non-conventional luminescent biopolymers is considered a sustainable approach to achieve these goals. The non-conventional emission was studied in terms of steady-state and time-resolved spectroscopy in order to unravel the structure-properties for different carvone-based copolymers. The results highlighted the importance of the final copolymer folding structure as well as its environment in luminescent behavior (cluster-triggered emission). In all cases, their luminescent behavior is sensitive to small temperature fluctuations (where the minimum detected temperature is Tm ∼ 2 °C and relative sensitivity is Sr ∼ 6\% °C) even at the microscopic scale, which endows these materials a great potential as thermosensitive smart polymers for photothermal imaging.",

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AU - de la Cruz-Martínez, Felipe

AU - Bresolí-Obach, Roger

AU - Bravo, Iván

AU - Alonso-Moreno, Carlos

AU - Hermida-Merino, Daniel

AU - Hofkens, Johan

AU - Lara-Sánchez, Agustín

AU - Castro-Osma, José A.

AU - Martín, Cristina

PY - 2023/1/14

Y1 - 2023/1/14

N2 - Population growth, depletion of world resources and persistent toxic chemical production underline the need to seek new smart materials from inexpensive, biodegradable, and renewable feedstocks. Hence, “metal-free” ring-opening copolymerization to convert biomass carvone-based monomers into non-conventional luminescent biopolymers is considered a sustainable approach to achieve these goals. The non-conventional emission was studied in terms of steady-state and time-resolved spectroscopy in order to unravel the structure-properties for different carvone-based copolymers. The results highlighted the importance of the final copolymer folding structure as well as its environment in luminescent behavior (cluster-triggered emission). In all cases, their luminescent behavior is sensitive to small temperature fluctuations (where the minimum detected temperature is Tm ∼ 2 °C and relative sensitivity is Sr ∼ 6% °C) even at the microscopic scale, which endows these materials a great potential as thermosensitive smart polymers for photothermal imaging.

AB - Population growth, depletion of world resources and persistent toxic chemical production underline the need to seek new smart materials from inexpensive, biodegradable, and renewable feedstocks. Hence, “metal-free” ring-opening copolymerization to convert biomass carvone-based monomers into non-conventional luminescent biopolymers is considered a sustainable approach to achieve these goals. The non-conventional emission was studied in terms of steady-state and time-resolved spectroscopy in order to unravel the structure-properties for different carvone-based copolymers. The results highlighted the importance of the final copolymer folding structure as well as its environment in luminescent behavior (cluster-triggered emission). In all cases, their luminescent behavior is sensitive to small temperature fluctuations (where the minimum detected temperature is Tm ∼ 2 °C and relative sensitivity is Sr ∼ 6% °C) even at the microscopic scale, which endows these materials a great potential as thermosensitive smart polymers for photothermal imaging.

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Unexpected luminescence of non-conjugated biomass-based polymers: new approach in photothermal imaging

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