Recycling 3D Printed Residues for the Development of Disposable Paper-Based Electrochemical Sensors

Silva-Neto, Habdias A.; Duarte-Junior, Gerson F.; Rocha, Danielly S.; Bédioui, Féthi; Varenne, Anne; Coltro, Wendell K. T.

doi:10.1021/acsami.3c00370

Cited by 8 publications

(2 citation statements)

References 67 publications

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“…Найбільш перспективним способом лікування захворювань сітківки та відновлення гостроти зору у пацієнтів на сьогоднішній день вважається перепрограмування ендогенних нейронних стовбурових клітин (НСК) з наступною активацією регенерації нейронів [33].…”

Section: мелатонін та можливості застосування у пацієнтів коморбідног...unclassified

Мелатонін Та Можливості Застосування У Пацієнтів Коморбідного Профілю

Kozak,

Kozak

2024

Immun. and Allerg.: Sci. and Pract.

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У статті наведено огляд новітніх результатів клінічних досліджень по застосуванню плейотропного гормону мелатоніну у пацієнтів різного терапевтичного профілю та з коморбідністю. Приведені дані про застосування мелатоніну для нормалізації сну, покращення емоційної сфери, а також як препарату, що чинить протизапальний, імуномодулюючий та антиоксидантний ефекти.

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Section: мелатонін та можливості застосування у пацієнтів коморбідног...unclassified

Мелатонін Та Можливості Застосування У Пацієнтів Коморбідного Профілю

Kozak,

Kozak

2024

Immun. and Allerg.: Sci. and Pract.

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“…Romani et al [106] managed to construct 3D printed shin pads out of the aforementioned recycled polymers. ABS and PLA have shown adequate electrodynamical properties making them suitable candidates for electrochemical sensors used in analytical chemistry [148][149][150]. 3D printing of catalysts for microwave-assisted reactions was being researched by Tubio et al [151] by utilizing a palladium-alumina composite that could handle 200 cycles of reuse.…”

Section: Large Scale Additive Manufacturing and Possible Future Appli...mentioning

confidence: 99%

Mechanical Performance of Recycled 3D Printed Sustainable Polymer-Based Composites: A Literature Review

Kyriakidis,

Kladovasilakis,

Pechlivani

et al. 2024

J. Compos. Sci.

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The development of efficient waste valorization strategies has emerged as an important field in the overall efforts for alignment with the environmental goals that have been set by the European Union (EU) Green Deal regarding the development of sustainable circular economy models. Additive manufacturing has emerged as a sustainable method for secondary life product development with the main advantages of it being a form of net-zero waste production and having the ability to successfully transport complex design to actual products finding applications in the industry for rapid prototyping or for tailored products. The insertion of eco-friendly sustainable materials in these processes can lead to significant reduction in material footprints and lower energy demands for the manufacturing process, helping achieve Sustainable Development Goal 12 (SDG12) set by the EU for responsible production and consumption. The aim of this comprehensive review is to state the existing progress regarding the incorporation of sustainable polymeric composite materials in additive manufacturing (AM) processes and identify possible gaps for further research. In this context, a comprehensive presentation of the reacquired materials coming from urban and industrial waste valorization processes and that are used to produce sustainable composites is made. Then, an assessment of the printability and the mechanical response of the constructed composites is made, by taking into consideration some key thermal, rheological and mechanical properties (e.g., viscosity, melting and degradation temperature, tensile and impact strength). Finally, existing life cycle analysis results are presented regarding overall energy demands and environmental footprint during the waste-to-feedstock and the manufacturing processes. A lack of scientific research was observed, regarding the manifestation of novel evaluation techniques such as dynamic mechanical analysis and impact testing. Assessing the dynamic response is vital for evaluating whether these types of composites are adequate for upscaling and use in real life applications.

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