Relevant bibliographies by topics / Peelable films

Academic literature on the topic 'Peelable films'

Author: Grafiati
Published: 10 March 2023

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Journal articles on the topic "Peelable films"

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Wagle, Pareena G., Simran S. Tamboli, and Aarti P. More. "Peelable coatings: A review." Progress in Organic Coatings 150 (January 2021): 106005. http://dx.doi.org/10.1016/j.porgcoat.2020.106005.

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Toader, Gabriela, Aurel Diacon, Traian Rotariu, Mioara Alexandru, Edina Rusen, Raluca Elena Ginghină, Florentina Alexe, et al. "Eco–Friendly Peelable Active Nanocomposite Films Designed for Biological and Chemical Warfare Agents Decontamination." Polymers 13, no. 22 (November 19, 2021): 3999. http://dx.doi.org/10.3390/polym13223999.

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In the context of imminent threats concerning biological and chemical warfare agents, the aim of this study was the development of a new method for biological and chemical decontamination, employing non-toxic, film-forming, water-based biodegradable solutions, using a nano sized reagent together with bentonite as trapping agents for the biological and chemical contaminants. Bentonite-supported nanoparticles of Cu, TiO2, and Ag were successfully synthesized and dispersed in a polyvinyl alcohol (PVA)/glycerol (GLY) aqueous solution. The decontamination effectiveness of the proposed solutions was evaluated by qualitative and quantitative analytical techniques on various micro-organisms, with sulfur mustard (HD) and dimethyl methylphosphonate (DMMP) as contaminants. The results indicate that the peelable active nanocomposite films can be successfully used on contaminated surfaces to neutralize and entrap the hazardous materials and their degradation products. Mechanical and thermal characterization of the polymeric films was also performed to validate the decontamination solution’s potential as peelable-film generating materials. The removal efficacy from the contaminated surfaces for the tested micro-organisms varied between 93% and 97%, while for the chemical agent HD, the highest decontamination factor obtained was 90.89%. DMMP was almost completely removed from the contaminated surfaces, and a decontamination factor of 99.97% was obtained.
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Ahmad, Naveed, Danial Tayyeb, Imran Ali, Nabil K. Alruwaili, Waqas Ahmad, Atta ur Rehman, Abdul Haleem Khan, and Mohammad Saeed Iqbal. "Development and Characterization of Hemicellulose-Based Films for Antibacterial Wound-Dressing Application." Polymers 12, no. 3 (March 3, 2020): 548. http://dx.doi.org/10.3390/polym12030548.

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Hemicelluloses are biopolymers with versatile properties for biomedical applications. Herein, hemicellulose (arabinoxylan)-based antibacterial film dressings were prepared and characterized. Arabinoxylan was isolated from psyllium husk. Blank and gentamicin-loaded films were prepared by the solvent cast method using glycerol as the plasticizer. The appropriate composition of the films was obtained by varying the amounts of arabinoxylan, glycerol, and gentamicin. The films were found to be transparent, smooth, bubble-free, flexible, and easily peelable with 2% to 3% arabinoxylan. They had uniform thickness and swelled up to 60% of their initial size. The mechanical properties and water vapor transmission rate through the films were found to be suitable for wound-dressing application. Fourier transform infrared spectroscopy (FTIR) analysis confirmed drug–film compatibility. In an in vitro release study, more than 85% of the gentamicin was released from the films in 12 h. The antibacterial activities of the gentamicin-loaded films were found to be close to the standard gentamicin solution. The films were found to be cytocompatible in cell viability assay. These results suggested that hemicellulose-based films are promising materials for the dressing of infected wounds.
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Aithani, Dinesh, Hugh Lockhart, Rafael Auras, and Krittika Tanprasert. "Predicting the Strongest Peelable Seal for ‘Easy-Open’ Packaging Applications." Journal of Plastic Film & Sheeting 22, no. 4 (October 2006): 247–63. http://dx.doi.org/10.1177/8756087906071351.

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Guaragnone, Teresa, Andrea Casini, David Chelazzi, and Rodorico Giorgi. "PVA-based peelable films loaded with tetraethylenepentamine for the removal of corrosion products from bronze." Applied Materials Today 19 (June 2020): 100549. http://dx.doi.org/10.1016/j.apmt.2019.100549.

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Liebmann, A., I. Schreib, R. E. Schlözer, and J. P. Majschak. "Practical Case Studies: Easy Opening for Consumer-Friendly, Peelable Packaging." Journal of Adhesion Science and Technology 26, no. 20-21 (May 16, 2012): 2437–48. http://dx.doi.org/10.1163/156856111x599544.

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Tang, Junlei, Shiyu Li, Yingying Wang, Hailong Zhang, Bing Lin, and Mingxian Sun. "Ethyl cellulose based peelable coatings with visual sensing of hydrogen sulfide." Progress in Organic Coatings 163 (February 2022): 106617. http://dx.doi.org/10.1016/j.porgcoat.2021.106617.

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Gao, Ningjie, Jiwen Li, Wanyu Zhang, Lin Ma, Izuchukwu Kenneth Nwokolo, Fuchun Liu, and En-Hou Han. "Double-layer peelable coating with eminent mechanical properties and anti-permeability." Progress in Organic Coatings 160 (November 2021): 106517. http://dx.doi.org/10.1016/j.porgcoat.2021.106517.

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Tanikawa, Kota, Toshihiro Okamoto, Shun Kamada, Ryota Matsumoto, Naoki Tamura, and Masanobu Haraguchi. "Fabrication of peelable thin films containing crescent-shaped split-ring resonators for three-dimensional optical metamaterials." Optical Materials Express 7, no. 1 (December 2, 2016): 1. http://dx.doi.org/10.1364/ome.7.000001.

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Lewandowski, Kevin, Larry R. Krepski, and Daniel E. Mickus. "Dry-peelable temporary protective coatings from waterborne self-crosslinkable sulfourethane-silanol dispersions." Journal of Applied Polymer Science 91, no. 3 (2003): 1443–49. http://dx.doi.org/10.1002/app.13316.

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Dissertations / Theses on the topic "Peelable films"

1

Guaragnone, Teresa. "Novel formulations of polyvinyl alcohol-based peelable systems for the cleaning of metal artefacts." Doctoral thesis, 2021. http://hdl.handle.net/2158/1247417.

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The presence of dirt, soil, aged polymers or corrosion patinas can hinder the readability of artworks; in these cases, non-invasive and controlled removal is essential. Nanostructured fluids (NSFs) - such as micellar solutions and microemulsions- allowed achieving this purpose, decreasing, at the same time, the drawbacks related to the use of solvents. In the last decades, several cleaning fluids have been developed; surfactants, in particular, have a crucial role in the NSFs’ formulations. For this reason, the research of innovative and highly performing amphiphiles represents one of the main goals in modern conservation science, in order to develop safer and greener systems. Two different NSFs were prepared with MPD surfactant and their interaction with soil and polymeric layers was evaluated through several techniques (CLSM, photographic observation, contact angle and surface tension measurements). Moreover, a comparison with a conventional nonionic surfactant (PDE) was made. MPD-based NSFs were found to be more effective in cleaning surfaces, also without mechanical action. Confining cleaning fluids in retentive matrices like gels represents one of the most powerful strategies to obtain greater control of the cleaning action. Two different pHEMA-based semi-IPNs were used as scaffold for a high selective agent (i.e., TEPA) able to remove corrosion products without affecting the protective cuprite layers. Changes in gels’ structure were evaluated by means DSC, TGA and SEM analysis before and after the interaction with the copper alloys; Cu(II) ion adsorption kinetics were used to assess the effect of the gels’ structure on the adsorption process. The pHEMA-based gels, classified as “rigid systems”, are not suitable for the treatment of bronze sculpture characterized by deep cavities and high reliefs. To overcome these limitations, TEPA was confined into a PVA-based film (HVPD) forming system. Thanks to its viscoelastic properties and its ability to combine a chemical action with a mechanical one, the HVPD represents a good option in these cases. The physico-chemical characterization was carried out to evaluate the effect of TEPA-addition on (1) the kinetics of the film formation, quantified through gravimetric and rheological measurements, and on (2) the final films’ properties, determined by DSC, ATR-FTIR and SEM analysis. 2D FTIR FPA Imaging confirmed the complete removal of corrosion products, the preservation of cuprite layers and the absence of residues on the mock-up surfaces after the treatment with both semi-IPNs and HVPDs. Finally, tests on real cases study are presented.
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