Spiropyran-functionalized photochromic nylon webbings for long-term ultraviolet light sensing

Webbing structures are extensively employed in engineering systems as load-bearing components. In a field setting, webbings are frequently subject to extended ultraviolet (UV) light irradiation, which can affect their integrity and reduce their mechanical strength. Despite technological advancements...

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Published inJournal of applied physics Vol. 132; no. 6
Main Authors Zhang, Peng, Ohanian, Osgar John, Porfiri, Maurizio
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 14.08.2022
Subjects
Color
Differential equations
Light irradiation
Load bearing components
Load bearing elements
Mathematical analysis
Mathematical models
Nylon
Ordinary differential equations
Photochemistry
Photochromism
Spiropyrans
Structural health monitoring
Ultraviolet radiation
Webbing
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Abstract Webbing structures are extensively employed in engineering systems as load-bearing components. In a field setting, webbings are frequently subject to extended ultraviolet (UV) light irradiation, which can affect their integrity and reduce their mechanical strength. Despite technological advancements in structural health monitoring, long-term UV sensing techniques for webbings remain under-developed. To fill this gap, we propose a photochromic nylon webbing that demonstrates color variation in response to extended UV exposure. The webbing offers a rich, yet controlled, color variation over multiple time scales that is conducive to UV sensing. A mathematical model grounded in photochemistry is developed to interpret experimental observations, unveiling the photochromic phenomenon as a multi-step, multi-timescale photochemical process involving several chemical species. The model captures the evolution of the coexisting species through a system of nonlinear, coupled ordinary differential equations, offering the basis for the inference of the webbing’s color. The proposed photochromic webbing and the photochemistry-based mathematical model could inform future designs of UV-sensitive structures that maintain sensitivity under weeks of continuous sunlight UV exposure.
AbstractList Webbing structures are extensively employed in engineering systems as load-bearing components. In a field setting, webbings are frequently subject to extended ultraviolet (UV) light irradiation, which can affect their integrity and reduce their mechanical strength. Despite technological advancements in structural health monitoring, long-term UV sensing techniques for webbings remain under-developed. To fill this gap, we propose a photochromic nylon webbing that demonstrates color variation in response to extended UV exposure. The webbing offers a rich, yet controlled, color variation over multiple time scales that is conducive to UV sensing. A mathematical model grounded in photochemistry is developed to interpret experimental observations, unveiling the photochromic phenomenon as a multi-step, multi-timescale photochemical process involving several chemical species. The model captures the evolution of the coexisting species through a system of nonlinear, coupled ordinary differential equations, offering the basis for the inference of the webbing’s color. The proposed photochromic webbing and the photochemistry-based mathematical model could inform future designs of UV-sensitive structures that maintain sensitivity under weeks of continuous sunlight UV exposure.
Author Ohanian, Osgar John
Zhang, Peng
Porfiri, Maurizio
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  organization: Department of Mechanical and Aerospace Engineering and Center for Urban Science and Progress, New York University Tandon School of Engineering
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  organization: Department of Mechanical and Aerospace Engineering, Department of Biomedical Engineering, and Center for Urban Science and Progress, New York University Tandon School of Engineering
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Snippet Webbing structures are extensively employed in engineering systems as load-bearing components. In a field setting, webbings are frequently subject to extended...
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SubjectTerms Color
Differential equations
Light irradiation
Load bearing components
Load bearing elements
Mathematical analysis
Mathematical models
Nylon
Ordinary differential equations
Photochemistry
Photochromism
Spiropyrans
Structural health monitoring
Ultraviolet radiation
Webbing
Title Spiropyran-functionalized photochromic nylon webbings for long-term ultraviolet light sensing
URI http://dx.doi.org/10.1063/5.0093641
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Volume 132
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