Water‐based polyurethanes for sustainable advanced manufacture

Si, Pengxiang; Zhao, Boxin

doi:10.1002/cjce.24049

Cited by 19 publications

(22 citation statements)

References 101 publications

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“…The choice of the binder mainly depends on the properties of the filler and the intended application, which can require features such as self-healing, water stability, heat stability or stretchability. Biodegradable options include poly(lactic acid) (PLA) 35 , poly(vinyl alcohol) 36 , polyurethane (PU) 37 , silk fibroin 38 and cellulose 39 . The only ones to provide stability towards water, namely PLA and PU, are also the most difficult to decompose in natural conditions and typically require industrial composting infrastructures 40 , 41 .…”

Section: Introductionmentioning

confidence: 99%

Versatile carbon-loaded shellac ink for disposable printed electronics

Poulin

Aeby

Siqueira

et al. 2021

Sci Rep

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Emerging technologies such as smart packaging are shifting the requirements on electronic components, notably regarding service life, which counts in days instead of years. As a result, standard materials are often not adapted due to economic, environmental or manufacturing considerations. For instance, the use of metal conductive tracks in disposable electronics is a waste of valuable resources and their accumulation in landfills is an environmental concern. In this work, we report a conductive ink made of carbon particles dispersed in a solution of shellac. This natural and water-insoluble resin works as a binder, favourably replacing petroleum-derived polymers. The carbon particles provide electrical conductivity and act as a rheology modifier, creating a printable shear-thinning gel. The ink’s conductivity and sheet resistance are 1000 S m−1 and 15 Ω sq−1, respectively, and remain stable towards moisture. We show that the ink is compatible with several industry-relevant patterning methods such as screen-printing and robocasting, and demonstrate a minimum feature size of 200 μm. As a proof-of-concept, a resistor and a capacitor are printed and used as deformation and proximity sensors, respectively.

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Section: Introductionmentioning

confidence: 99%

Versatile carbon-loaded shellac ink for disposable printed electronics

Poulin

Aeby

Siqueira

et al. 2021

Sci Rep

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“…Foams, thin films, textiles, technology, automotives and buildings are just a few of the industrial uses for PUs [ 159 ]. In addition to offering advantages in terms of superior material properties (such as versatility, stretchability, elasticity, and mechanical strength), processability (such as 3D printing, inkjet printing, screen printing, spray coating, and molding), and sustainability, water-based polyurethanes are constantly developed in order to replace common solvent-based polyurethanes, but also other fossil-derived polymers [ 160 ].…”

Section: Functional Protective Sustainable Coatingsmentioning

confidence: 99%

Sustainable Secondary-Raw Materials, Natural Substances and Eco-Friendly Nanomaterial-Based Approaches for Improved Surface Performances: An Overview of What They Are and How They Work

Sfameni

Rando

Plutino

2023

IJMS

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To meet modern society’s requirements for sustainability and environmental protection, innovative and smart surface coatings are continually being developed to improve or impart surface functional qualities and protective features. These needs regard numerous different sectors, such as cultural heritage, building, naval, automotive, environmental remediation and textiles. In this regard, researchers and nanotechnology are therefore mostly devoted to the development of new and smart nanostructured finishings and coatings featuring different implemented properties, such as anti-vegetative or antibacterial, hydrophobic, anti-stain, fire retardant, controlled release of drugs, detection of molecules and mechanical resistance. A variety of chemical synthesis techniques are usually employed to obtain novel nanostructured materials based on the use of an appropriate polymeric matrix in combination with either functional doping molecules or blended polymers, as well as multicomponent functional precursors and nanofillers. Further efforts are being made, as described in this review, to carry out green and eco-friendly synthetic protocols, such as sol–gel synthesis, starting from bio-based, natural or waste substances, in order to produce more sustainable (multi)functional hybrid or nanocomposite coatings, with a focus on their life cycle in accordance with the circular economy principles.

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“…In recent decades, bioinspired self-healing polymeric materials possessing the ability to repair themselves following damage have attracted great attention because of their unique properties and wide applicability in the automotive industry, the aerospace industry, − the construction industry, − energy storage devices, − and flexible electrode sensors. − Such self-healing technologies are anticipated to reduce the failure of materials and increase the reliability and sustainability of products with minimal maintenance. , …”

Section: Introductionmentioning

confidence: 99%

Damage-Detectable and Self-Healable Photoluminescent Dual Dynamic Supramolecular Networks

Kim

Chung

et al. 2022

ACS Appl. Polym. Mater.

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The development of self-healing polymers with the ability to identify the location of damage and to nondestructively detect whether the damage is healed is essential for the application of self-healing materials in actual products. Such an ability would allow the healing process to be carried out only on the damaged area and to be monitored in real time, ultimately enhancing the reliability of the self-healing properties of the products. Herein, we synthesized ureidopyrimidinone end-functionalized poly(ε-caprolactone) with pendant pyrene groups (Py-UPCL) and investigated its photoluminescent, mechanical, and rheological properties, in addition to its damage detection and self-healing behaviors. Nuclear magnetic resonance (NMR) spectroscopy, infrared (IR) spectroscopy, capillary viscometry, and fluorescence spectroscopy revealed that Py-UPCL possesses a dual dynamic supramolecular network structure derived from UPy quadruple hydrogen bonding and pyrene excimerization. Py-UPCL exhibited superior mechanical properties compared to ureidopyrimidinone end-functionalized poly(ε-caprolactone) without pendant pyrene groups (UPCL) and compared to a simple mixture of UPCL with pyrene (Py/UPCL). This was attributed to the cross-linking structure of Py-UPCL formed through pyrene excimerization. In addition, the Py-UPCL film exhibited a healing efficiency of ∼98.7% under the healing condition of 100 °C for 20 min, and the healed status was maintained without any change in shape. Importantly, upon ultraviolet irradiation, the photoluminescent properties of Py-UPCL allowed the direct detection of microcracks that are not normally visible to the naked eye. Rheometry and fluorescence experiments showed that the UPy quadruple hydrogen bonds and pyrene excimers dissociated at 130 and 140 °C, respectively, thereby accounting for the stable healing behavior of Py-UPCL.

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Water‐based polyurethanes for sustainable advanced manufacture

Cited by 19 publications

References 101 publications

Versatile carbon-loaded shellac ink for disposable printed electronics

Versatile carbon-loaded shellac ink for disposable printed electronics

Sustainable Secondary-Raw Materials, Natural Substances and Eco-Friendly Nanomaterial-Based Approaches for Improved Surface Performances: An Overview of What They Are and How They Work

Damage-Detectable and Self-Healable Photoluminescent Dual Dynamic Supramolecular Networks

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