Flexible TPU inverse opal fabrics for colorimetric detecting of VOCs

Recently, responsive structure color fibers and fabrics have been designed and prepared for colorimetric detecting of volatile organic compounds (VOCs). Fabric substrates can offer greater flexibility and portability than flat and hard substrates such as glass, silicon wafers, etc. At present, one-d...

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Bibliographic Details
Published in:RSC advances 2023-03, Vol.13 (14), p.9457-9465
Main Authors: Gong, Xinbo, Hou, Chengyi, Zhang, Qinghong, Li, Yaogang, Wang, Hongzhi
Format: Article
Language:English
Subjects:
Binding
Chemistry
Chloroform
Color
Colorimetry
Diffusion
Discoloration
Fabrics
Glass substrates
Multilayers
Photonic crystals
Polyurethane resins
Reflection
Refractivity
Silicon dioxide
Silicon substrates
Silicon wafers
Textile composites
Toluene
Urethane thermoplastic elastomers
VOCs
Volatile organic compounds
Yarns
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Summary:Recently, responsive structure color fibers and fabrics have been designed and prepared for colorimetric detecting of volatile organic compounds (VOCs). Fabric substrates can offer greater flexibility and portability than flat and hard substrates such as glass, silicon wafers, etc. At present, one-dimensional photonic crystal (multilayer films) and three-dimensional dense photonic crystal layers are mainly constructed on fabrics to achieve the response to VOCs. However, the binding force between these structural color coatings and the fabrics was poor, and the dense structures inevitably hindered the diffusion of VOCs. Here, thermoplastic polyurethane (TPU) inverse opal (IOs) fabrics were prepared by sacrificing the SiO 2 photonic crystal templates to achieve colorimetric detecting of VOCs. The IOs layer of TPU was cured directly on the fabric surface, TPU infiltrated into the fabric yarns, and bonded the fabrics and IOs layer into a whole, which greatly improved the binding force, and the porous structure and large specific surface area of IOs were conducive to the diffusion of VOCs. The results showed that the TPU IOs fabrics have large reflection peak shifts to DMF, THF, toluene and chloroform vapors, and its concentration has a good linear relationship with the maximum reflection peak value of TPU IOs fabrics. The theoretical detection limits are 1.72, 0.89, 0.78 and 1.64 g m −3 , respectively. The response times are 105, 62, 75 and 66 seconds, with good stability. Finally, it was calculated that the discoloration of the TPU IOs fabrics in VOCs was due to the joint-effects of lattice spacing and effective refractive index increase. Thermoplastic polyurethane (TPU) inverse opal structural color fabrics for colorimetric detecting of volatile organic compounds (VOCs) vapor especially DMF, THF, toluene and chloroform.
ISSN:2046-2069
2046-2069
DOI:10.1039/d3ra01009k