*Editorial* **Editorial for the Special Issue: Multifunctional Composites in the** *Journal of Composites Science*

**Phuong Nguyen-Tri**

Department of Chemistry, Biochemistry and Physics, Université du Québec à Trois-Rivieres, Local 3170, CIPP, 3351, boul. des Forges, C.P. 500, Trois-Rivières, QC G9A 5H7, Canada; Phuong.Nguyen-Tri@uqtr.ca

With the progress in nanotechnology and production methods, composite materials are becoming lighter, cheaper, more durable, and more versatile. At present, great progress has been made in the design, preparation, and characterization of composite materials, making them smarter and more versatile [1–3]. By creating new properties using suitable fillers and matrixes [3–5], the functional composites can meet the most difficult demands of users, especially in high-tech industries. Advanced composites reinforced by highperformance carbon fibers and nanofillers are popular in the automotive and aerospace industries thanks to their significant advantages, such as high specific strength to weight ratio and non-corrosion properties. In addition to the improvement of the mechanical performance, composite materials today are designed to provide new functions dealing with antibacterial, self-cleaning, self-healing, super-hard, and solar reflective activities for desired end-use applications [6–9]. On the other hand, composite materials can contribute to reducing environmental issues by providing renewable energy technologies in conjunction with multifunctional, lightweight energy storage systems with high performance and noncorrosive properties. They are also used to prepare a new generation of batteries and directly contribute to H2 production or CO2 reduction in fuels and chemicals.

In this Special Issue, we have collected a total of 12 excellent articles reporting on recent developments dealing with preparative methods, design, properties, structure, and characterization methods, as well as promising applications of multifunctional composites from internationally recognized researchers worldwide. These papers come from a total of 44 authors from 14 different countries, including the USA (2), the UK (1), Canada (4), Germany (4), China (3), Italy (1), Pakistan (1), Vietnam (11), Iran (3), Ethiopia (4), Bangladesh (4), Russia (4), Romania (1) and Poland (2). These articles cover potential applications in various areas, such as anticorrosion, photocatalyst, absorbers, superhydrophobic, selfcleaning, antifouling/antibacterial, renewable energy, energy storage systems, construction, electronics, and modeling and simulating processes involving the design and preparation of functional and multifunctional composites.

Various multifunctional materials based on biodegradable polymers are reported in this collection. Kong D. et al. reported on the preparation of composites that contain chitosan and pectin biopolymers with tunable adsorption properties. Binary biopolymer composites were prepared at variable pectin–chitosan composition in a solvent directed synthesis, dimethyl sulfoxide (DMSO) versus water [10], while Nguyen et al. published an article on the preparation of biodegradable composites based on polylactide acid reinforced by pulp fiber (PF) and epoxidized tung-oil (ETO). The effect of these components on mechanical properties are deeply discussed [11]. In another article, the influence of layer thickness (LT), infill percentage (IP), and extruder temperature (ET) on the maximum failure load, thickness, and build time of bronze polylactic acid (Br-PLA) composites 3Dprinted by the fused deposition modeling (FDM) was investigated via an optimization method [12].

Some articles reported on the recent developments in smart coatings in terms of their mechanical properties, while the oxidative and weather resistance of come smart composite

**Citation:** Nguyen-Tri, P. Editorial for the Special Issue: Multifunctional Composites in the *Journal of Composites Science*. *J. Compos. Sci.* **2021**, *5*, 15. https://doi.org/ 10.3390/jcs5010015

Received: 4 January 2021 Accepted: 6 January 2021 Published: 7 January 2021

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coatings are also reported [13–16]. Regarding the applications of multifunctional composites to the environmental field, N-doped Cu2O/ZnO nanocomposite on the degradation of methyl red is reported by Raim et al. [17], while the phototodegradation of CuO/ZnO to textile dyes is also investigated [18]. Computer simulation has also been used to predict the behavior of composite materials at the nanoscale [19]. A critical review on the complex multiphase polydisperse system is also reported in this collection [20].

The guest editor would like to thank the Editor in chief of the Journal of composites Science for accepting his proposal related to this Special Issue. Many thanks to the assistant editors for their kind help during the review process and for all steps relating to the production of the selected articles. I hope the high-quality articles published in this SI may provide helpful information to students, engineers, and researchers working on multifunctional composites.

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