| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Reineke, Theresa M.
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (14/14 displayed)
- 2024Mechanical Recycling of 3D-Printed Thermosets for Reuse in Vat Photopolymerizationcitations
- 2023Radical ring-opening polymerization of sustainably-derived thionoisochromanonecitations
- 2023Biobased Copolymers via Cationic Ring-Opening Copolymerization of Levoglucosan Derivatives and ϵ-Caprolactonecitations
- 2023Biobased and degradable thiol-ene networks from levoglucosan for sustainable 3D printingcitations
- 2021Degradable polyanhydride networks derived from itaconic acidcitations
- 2021Structural Basis for the Different Mechanical Behaviors of Two Chemically Analogous, Carbohydrate-Derived Thermosetscitations
- 2021Sustainable advances in SLA/DLP 3D printing materials and processescitations
- 2021Regioregular Polymers from Biobased (R)-1,3-Butylene Carbonatecitations
- 2019Properties of Chemically Cross-Linked Methylcellulose Gelscitations
- 2018Isothermal Titration Calorimetry for the Screening of Aflatoxin B1 Surface-Enhanced Raman Scattering Sensor Affinity Agentscitations
- 2016Acrylic Triblock Copolymers Incorporating Isosorbide for Pressure Sensitive Adhesivescitations
- 2015Isosorbide-based polymethacrylatescitations
- 2014Degradable thermosets from sugar-derived dilactonescitations
- 2012Glucose-functionalized, serum-stable polymeric micelles from the combination of anionic and RAFT polymerizationscitations
Places of action
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article
Sustainable advances in SLA/DLP 3D printing materials and processes
Abstract
<p>3D printing is an essential tool for rapid prototyping in a variety of sectors such as automotive and public health. The 3D printing market is booming, and it is projected that it will continue to thrive in the coming years. Unfortunately, this rapid growth has led to an alarming increase in the amount of 3D printed plastic waste. 3D printing processes such as stereolithography (SLA) and digital light projection (DLP) in particular generally produce petroleum-based thermosets that are further worsening the plastic pollution problem. To mitigate this 3D printed plastic waste, sustainable alternatives to current 3D printing materials must be developed. The present review provides a comprehensive overview of the sustainable advances in SLA/DLP 3D printing to date and offers a perspective on future directions to improve sustainability in this field. The entire life cycle of 3D printed parts has been assessed by considering the feedstock selection and the end-of-use of the material. The feedstock selection section details how renewable feedstocks (from lignocellulosic biomass, oils, and animal products) or waste feedstocks (e.g., waste cooking oil) have been used to develop SLA/DLP resins. The end-of-use section describes how materials can be reprocessed (e.g.thermoplastic materials or covalent adaptable networks) or degraded (through enzymatic or acid/base hydrolysis of sensitive linkages) after end-of-use. In addition, studies that have employed green chemistry principles in their resin synthesis and/or have shown their sustainable 3D printed parts to have mechanical properties comparable to commercial materials have been highlighted. This review also investigates how aspects of sustainability such as recycling for feedstock/end-of-use or biodegradation of 3D printed parts in natural environments can be incorporated as future research directions in SLA/DLP.</p>