Integrating Thermal Actuation and Acidochromism in Schiff Base Molecular Crystals

Integrating Thermal Actuation and Acidochromism in Schiff Base Molecular Crystals

Crystalline materials capable of responding to multiple external stimuli have garnered considerable attention in recent years due to their promising potential for various applications in smart materials, sensing, and actuation. In this paper, we report the synthesis and characterization of two devel...

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1. autor: Sayak Nag (21387016) (author)
Kolejni autorzy: Aritra Bhowmik (21494419) (author), Manish Kumar Mishra (4675396) (author), Soumyajit Ghosh (1552036) (author)
Wydane: 2025
Hasła przedmiotowe:
Biophysics
Medicine
Microbiology
Genetics
Pharmacology
Biotechnology
Developmental Biology
Space Science
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
− π –
two reversible responses
two developed linker
recent years due
optical absorption properties
multiple external stimuli
garnered considerable attention
electronic conjugation within
basic vapors </
thermally responsive microactuators
martensitic phase transition
integrating thermal actuation
configuration upon protonation
1 </ b
temperature phase
responsive behaviors
various applications
unique combination
system undergoes
smart materials
sensitive sensors
repeated heating
promising potential
molecular framework
involves rapid
distinct shift
cooling cycles
advanced applications
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Streszczenie:Crystalline materials capable of responding to multiple external stimuli have garnered considerable attention in recent years due to their promising potential for various applications in smart materials, sensing, and actuation. In this paper, we report the synthesis and characterization of two developed linker-based Schiff base molecular crystals, designated as <b>1</b> and <b>2</b>, both of which exhibit two distinct reversible stimuli-responsive behaviors: <i>(i) a thermal expansion–contraction response during repeated heating and cooling cycles and (ii) a reversible acidochromic color change upon sequential exposure to acidic and basic vapors</i>. Importantly, these two reversible responses are governed by entirely distinct underlying processes. The thermal expansion–contraction behavior is driven by a martensitic phase transition, from a low-temperature phase to a high-temperature phase, which involves rapid and reversible lattice displacive rearrangements. In contrast, the acidochromic color change arises from a disruption in the electronic conjugation within the molecular framework, where the system undergoes a transformation from an A−π–D−π–A (acceptor−π–donor−π–acceptor) configuration to an A−π–A−π–A (acceptor−π–acceptor−π–acceptor) configuration upon protonation, manifested by a distinct shift in optical absorption properties. The unique combination of these two reversible phenomenathermal expansion-contraction and acidochromic responseswithin a single material system offers significant potential for advanced applications, particularly in the development of acid-sensitive sensors and thermally responsive microactuators.

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