2019
DOI: 10.1039/c9py00890j
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The light-controlling of temperature-responsivity in stimuli-responsive polymers

Abstract: Light-controlling of phase separation in temperature-responsive polymer solutions by using light-responsive materials for reversible controlling physical and chemical properties of the media with an out-of-system stimulus with tunable intensity.

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Cited by 158 publications
(100 citation statements)
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“…Generally, the azobenzenes can be isomerized from "trans" to "cis" using a UV wavelength of 300-400 nm. The "cis" created isomers will convert back under visible illumination at above 400 nm to the stable "trans" state [28]. An alternating method composed of lanthanide-aspartic acid nanoscale coordination polymers blended with PLA has recently been used to generate fluorescent quick-read codes within FFF printed objects, acting as an original anticounterfeiting procedure; the composite PLA parts exhibit reddish-pink or blue-green fluorescence when exposed to UV light [29].…”
Section: Stimuli-responsive Polymers and Selected Applicationsmentioning
confidence: 99%
“…Generally, the azobenzenes can be isomerized from "trans" to "cis" using a UV wavelength of 300-400 nm. The "cis" created isomers will convert back under visible illumination at above 400 nm to the stable "trans" state [28]. An alternating method composed of lanthanide-aspartic acid nanoscale coordination polymers blended with PLA has recently been used to generate fluorescent quick-read codes within FFF printed objects, acting as an original anticounterfeiting procedure; the composite PLA parts exhibit reddish-pink or blue-green fluorescence when exposed to UV light [29].…”
Section: Stimuli-responsive Polymers and Selected Applicationsmentioning
confidence: 99%
“…The responsiveness of polymer vehicles to pH changes are commonly used in the treatment of cancer cells due to their acidic reaction, which is an opposite to alkaline environment in healthy cells [ 16 ]. Additionally, the unhealthy cells usually gain higher temperature, which is exploited by temperature-responsive polymer carriers for specific behavior in the conditions of their lower or upper critical solution temperature [ 17 ]. Mechanisms based on ionic strength are characteristic for polymers containing ionic groups.…”
Section: Introductionmentioning
confidence: 99%
“…Smart materials, also called intelligent materials, can sense external stimuli, such as light, temperature, pH, stress, strain, chemical, nuclear radiation, electric fields, and magnetic fields. In particular, these types of materials can usually select and control the degree of response according to the design requirement, and can quickly go back to their initial phase when the external stimulus is eliminated [1][2][3]. Among various smart materials, the electric field-responsive smart particle suspension, called an electrorheological (ER) fluid, can change state from liquid-like to solid-like immediately and reversibly with an applied electrical field [4][5][6][7].…”
Section: Introductionmentioning
confidence: 99%