Textile Functionalization and Its Effects on the Release of Silver Nanoparticles into Artificial Sweat

Wagener, Sandra; Dommershausen, Nils; Jungnickel, Harald; Laux, Peter; Mitrano, Denise M.; Nowack, Bernd; Schneider, Gregor; Luch, Andreas

doi:10.1021/acs.est.5b06137

Cited by 67 publications

(32 citation statements)

References 22 publications

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“…Overall, we also found a blue-shift in the studied PCN spectra upon UV exposure (see figures S3-S6), this suggest that the UV-responsive AgNPs embedded within PCNs undergo a size reduction [16]. Although perspiration (which consists in water, minerals, lactate, and urea) [26] is also able to release Ag ions from AgNPs [27,28], previously performed control experiments confirm that perspiration itself is not able to trigger dramatic AgNPs size reduction leading to a color change in nanoplasmonic UV detectors. In fact this phenomenon only occurs in epidermal conditions upon UV exposure [9].…”

Section: Resultssupporting

confidence: 57%

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Francisco-Aldana

Morales‐Narváez

2019

J. Phys. Photonics

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Preventive healthcare is crucial to hinder or delay the onset of disease, furthermore it contributes to healthy and productive lifestyles and saves resources allocated to public health. Herein, we explore how the plasmonic coupling of silver and gold nanoparticles embedded within nanopaper allows for potential preventive healthcare tools based on a change in plasmonic color. Particularly, we selected UV radiation exposure as a potential threat to health to be monitored via plasmonic colored nanopaper (PCN). Uncontrolled UV radiation exposure is not only known to provoke epidermal damage, but also to trigger leaching of hazardous compounds from polycarbonate containers. In this context, we engineered UV-responsive PCN devices whose sensing mechanism is based on UV photodegradation of silver nanoparticles. Since absorbance and scattering of metal nanoparticles strongly depend on their size and inter-particle distance, the resulting PCN detectors are able to warn of the potential UV radiation-induced threat via a visually observable plasmonic color change with a yellowish/reddish transition. Epidermal experiments with tattoo-like PCN devices prove the resulting detectors can change in color upon safe dose of sun exposure. Moreover, PCN detectors stuck on polycarbonate containers also change in color after moderate sun exposure. This cost-effective and lightweight nanophotonic device leads to a versatile preventive healthcare tool.

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Section: Resultssupporting

confidence: 57%

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Francisco-Aldana

Morales‐Narváez

2019

J. Phys. Photonics

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“…Dermal exposure, which is a relevant route to address for exposure to nanoparticles, 56 e.g. via the use of sunscreen 57 or textiles 58 containing nanoparticles, is not encompassed in the USEtox 2.0 model and hence was disregarded in the current study. Indirect exposure covers the ingestion of agricultural produce (divided into above-and below-ground produce), meat, dairy products and fish 40 , and bioaccumulation factors (BAF) corresponding to these exposure pathways are needed.…”

Section: Exposure Factorsmentioning

confidence: 99%

Development of Comparative Toxicity Potentials of TiO₂ Nanoparticles for Use in Life Cycle Assessment

Ettrup

Kounina

Hansen

et al. 2017

Environ. Sci. Technol.

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Studies have shown that releases of nanoparticles may take place through the life cycle of products embedding nanomaterials, thus resulting in potential impacts on ecosystems and human health. While several life cycle assessment (LCA) studies have assessed such products, only a few of them have quantitatively addressed the toxic impacts caused by released nanoparticles, thus leading to potential biases in their conclusions. Here, we address this gap and aim to provide a framework for calculating characterization factors or comparative toxicity potentials (CTP) for nanoparticles and derive CTP values for TiO nanoparticles (TiO-NP) for use in LCA. We adapted the USEtox 2.0 consensus model to integrate the SimpleBox4Nano fate model, and we populated the resulting model with TiO-NP specific data. We thus calculated CTP values for TiO nanoparticles for air, water, and soil emission compartments for freshwater ecotoxicity and human toxicity, both cancer effects and noncancer effects. Our results appeared plausible after benchmarking with CTPs for other nanoparticles and substances present in the USEtox database, while large differences were observed with CTP values for TiO nanoparticles published in earlier studies. Assumptions, which were performed in those previous studies because of lack of data and knowledge at the time they were made, primarily explain such discrepancies. For future assessment of potential toxic impacts of TiO nanoparticles in LCA studies, we therefore recommend the use of our calculated CTP.

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“…The choice of Ag NPs is preferable as compared with traditional antimicrobial agents such as metal salts, quaternary ammonium compounds and triclosan. This is superior due to various factors such as bacterial resistance, stability, cheaper and environmental benign [58,59]. Therefore it is more useful than the ionic silver as they cannot generate stain on the fabrics, maintaining fabric breathability and handling.…”

Section: Textilesmentioning

confidence: 99%

Silver nanoparticles as an effective disinfectant: A review

Deshmukh

Patil

Mullani

et al. 2019

Materials Science and Engineering: C

546

302

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A B S T R A C TThe paradigm modifications in the metallic crystals from bulky to micro-size to nano-scale have resulted in excellent and amazing properties; which have been the remarkable interests in a wider range of applications. Particularly, Ag NPs have much attention owing to their distinctive optical, chemical, electrical and catalytic properties that can be tuned with surface nature, size, shapes, etc. and hence these crystals have been used in various fields such as catalysis, sensor, electronic components, antimicrobial agents in the health industry etc. Among them, Ag NPs based disinfectants have paid attention due to the practical applications in our daily life.

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Textile Functionalization and Its Effects on the Release of Silver Nanoparticles into Artificial Sweat

Cited by 67 publications

References 22 publications

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Development of Comparative Toxicity Potentials of TiO₂ Nanoparticles for Use in Life Cycle Assessment

Silver nanoparticles as an effective disinfectant: A review

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Textile Functionalization and Its Effects on the Release of Silver Nanoparticles into Artificial Sweat

Cited by 67 publications

References 22 publications

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Plasmonic colored nanopaper: a potential preventive healthcare tool against threats emerging from uncontrolled UV exposure

Development of Comparative Toxicity Potentials of TiO2 Nanoparticles for Use in Life Cycle Assessment

Silver nanoparticles as an effective disinfectant: A review

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Development of Comparative Toxicity Potentials of TiO₂ Nanoparticles for Use in Life Cycle Assessment