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W4324192528 endingPage "868" @default.
W4324192528 startingPage "868" @default.
W4324192528 abstract "Graphene is an important nanocarbon nanofiller for polymeric matrices. The polymer–graphene nanocomposites, obtained through facile fabrication methods, possess significant electrical–thermal–mechanical and physical properties for technical purposes. To overcome challenges of polymer–graphene nanocomposite processing and high performance, advanced fabrication strategies have been applied to design the next-generation materials–devices. This revolutionary review basically offers a fundamental sketch of graphene, polymer–graphene nanocomposite and three-dimensional (3D) and four-dimensional (4D) printing techniques. The main focus of the article is to portray the impact of 3D and 4D printing techniques in the field of polymer–graphene nanocomposites. Polymeric matrices, such as polyamide, polycaprolactone, polyethylene, poly(lactic acid), etc. with graphene, have been processed using 3D or 4D printing technologies. The 3D and 4D printing employ various cutting-edge processes and offer engineering opportunities to meet the manufacturing demands of the nanomaterials. The 3D printing methods used for graphene nanocomposites include direct ink writing, selective laser sintering, stereolithography, fused deposition modeling and other approaches. Thermally stable poly(lactic acid)–graphene oxide nanocomposites have been processed using a direct ink printing technique. The 3D-printed poly(methyl methacrylate)–graphene have been printed using stereolithography and additive manufacturing techniques. The printed poly(methyl methacrylate)–graphene nanocomposites revealed enhanced morphological, mechanical and biological properties. The polyethylene–graphene nanocomposites processed by fused diffusion modeling have superior thermal conductivity, strength, modulus and radiation- shielding features. The poly(lactic acid)–graphene nanocomposites have been processed using a number of 3D printing approaches, including fused deposition modeling, stereolithography, etc., resulting in unique honeycomb morphology, high surface temperature, surface resistivity, glass transition temperature and linear thermal coefficient. The 4D printing has been applied on acrylonitrile-butadiene-styrene, poly(lactic acid) and thermosetting matrices with graphene nanofiller. Stereolithography-based 4D-printed polymer–graphene nanomaterials have revealed complex shape-changing nanostructures having high resolution. These materials have high temperature stability and high performance for technical applications. Consequently, the 3D- or 4D-printed polymer–graphene nanocomposites revealed technical applications in high temperature relevance, photovoltaics, sensing, energy storage and other technical fields. In short, this paper has reviewed the background of 3D and 4D printing, graphene-based nanocomposite fabrication using 3D–4D printing, development in printing technologies and applications of 3D–4D printing." @default.
W4324192528 created "2023-03-15" @default.
W4324192528 creator A5004475369 @default.
W4324192528 creator A5012423444 @default.
W4324192528 creator A5052000407 @default.
W4324192528 creator A5086336181 @default.
W4324192528 creator A5088682570 @default.
W4324192528 date "2023-03-14" @default.
W4324192528 modified "2023-10-01" @default.
W4324192528 title "Polymer/Graphene Nanocomposites via 3D and 4D Printing—Design and Technical Potential" @default.
W4324192528 cites W1545683735 @default.
W4324192528 cites W1899714307 @default.
W4324192528 cites W1926262349 @default.
W4324192528 cites W1975748828 @default.
W4324192528 cites W1976156302 @default.
W4324192528 cites W1982015596 @default.
W4324192528 cites W1984147166 @default.
W4324192528 cites W1985310977 @default.
W4324192528 cites W1985358733 @default.
W4324192528 cites W1985388560 @default.
W4324192528 cites W1995922283 @default.
W4324192528 cites W1997110841 @default.
W4324192528 cites W1998382491 @default.
W4324192528 cites W2008540206 @default.
W4324192528 cites W2011465361 @default.
W4324192528 cites W2012587360 @default.
W4324192528 cites W2013939425 @default.
W4324192528 cites W2014699320 @default.
W4324192528 cites W2015623922 @default.
W4324192528 cites W2028310736 @default.
W4324192528 cites W2035438942 @default.
W4324192528 cites W2049965679 @default.
W4324192528 cites W2075439198 @default.
W4324192528 cites W2077039392 @default.
W4324192528 cites W2077762406 @default.
W4324192528 cites W2087374774 @default.
W4324192528 cites W2089783281 @default.
W4324192528 cites W2091170186 @default.
W4324192528 cites W2095059784 @default.
W4324192528 cites W2095576930 @default.
W4324192528 cites W2096421416 @default.
W4324192528 cites W2097162241 @default.
W4324192528 cites W2105908153 @default.
W4324192528 cites W2108678292 @default.
W4324192528 cites W2114665511 @default.
W4324192528 cites W2121742752 @default.
W4324192528 cites W2127128337 @default.
W4324192528 cites W2142721422 @default.
W4324192528 cites W2143014494 @default.
W4324192528 cites W2156575365 @default.
W4324192528 cites W2160860697 @default.
W4324192528 cites W2203540016 @default.
W4324192528 cites W2213077533 @default.
W4324192528 cites W2221573544 @default.
W4324192528 cites W2257143226 @default.
W4324192528 cites W2271673449 @default.
W4324192528 cites W2275291068 @default.
W4324192528 cites W2322477478 @default.
W4324192528 cites W2346675869 @default.
W4324192528 cites W2397510231 @default.
W4324192528 cites W2404725544 @default.
W4324192528 cites W2410274343 @default.
W4324192528 cites W2465856023 @default.
W4324192528 cites W2513618232 @default.
W4324192528 cites W2553221934 @default.
W4324192528 cites W2595206339 @default.
W4324192528 cites W2601860387 @default.
W4324192528 cites W2604066572 @default.
W4324192528 cites W2614786787 @default.
W4324192528 cites W2619492843 @default.
W4324192528 cites W2626238678 @default.
W4324192528 cites W2741181432 @default.
W4324192528 cites W2746890983 @default.
W4324192528 cites W2753938052 @default.
W4324192528 cites W2755284825 @default.
W4324192528 cites W2768200976 @default.
W4324192528 cites W2769658254 @default.
W4324192528 cites W2776630832 @default.
W4324192528 cites W2785882823 @default.
W4324192528 cites W2789422539 @default.
W4324192528 cites W2793435880 @default.
W4324192528 cites W2807561229 @default.
W4324192528 cites W2895024215 @default.
W4324192528 cites W2898601883 @default.
W4324192528 cites W2900429435 @default.
W4324192528 cites W2913917377 @default.
W4324192528 cites W2941908843 @default.
W4324192528 cites W2941981337 @default.
W4324192528 cites W2968876398 @default.
W4324192528 cites W2980992240 @default.
W4324192528 cites W2981225610 @default.
W4324192528 cites W2986274432 @default.
W4324192528 cites W2995310013 @default.
W4324192528 cites W3007861468 @default.
W4324192528 cites W3009755277 @default.
W4324192528 cites W3011515634 @default.
W4324192528 cites W3015165250 @default.
W4324192528 cites W3016429423 @default.