2021
DOI: 10.1007/s10853-020-05661-9
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3D printing of highly flexible, cytocompatible nanocomposites for thermal management

Abstract: Highly flexible biocompatible materials that are both thermally conductive and electrically insulating are important for implantable and wearable bioelectronics applications. The ability to thermally process these materials into useful structures using additive manufacturing approaches opens up new opportunities for its use in bespoke structures. Here we investigate the three-dimensional (3D) printing of a medical-grade thermoplastic polyurethane (PU) elastomer, which is thermally insulating and enhance its th… Show more

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Cited by 15 publications
(11 citation statements)
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“…The thermal conductivity of 0-20BNPU composites Thermal diffusivity (D, mm 2 /s) of 3D printed BNPU composites have been reported previously by our group [50] using a laser ash method (LFA-467 HyperFlash, NETZSCH, Germany) at 25 against a pyroceram reference sample to determine speci c heat capacity (C p , J/(g•K)) of the composites. Thermal conductivity of the composites λ (W/(m•K)) was calculated as λ = D × C p × ρ [51], where ρ is the density (g/cm 3 ).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The thermal conductivity of 0-20BNPU composites Thermal diffusivity (D, mm 2 /s) of 3D printed BNPU composites have been reported previously by our group [50] using a laser ash method (LFA-467 HyperFlash, NETZSCH, Germany) at 25 against a pyroceram reference sample to determine speci c heat capacity (C p , J/(g•K)) of the composites. Thermal conductivity of the composites λ (W/(m•K)) was calculated as λ = D × C p × ρ [51], where ρ is the density (g/cm 3 ).…”
Section: Resultsmentioning
confidence: 99%
“…Composites preparation and 3D-printing setup BNPU composites were prepared via a method previously reported [50]. PU pellets (HydroThane 80A, AdvanSource Biomaterials) were dissolved in a mixture of Ethanol/milli-Q water (85:15 v/v) at a concentration of 100 mg/mL under stirring in a water bath at 100°C for 4 h. BN nanopowders with a size of 150 nm (Sigma-Aldrich) were also dispersed in a solution of Ethanol/milli-Q water (85:15 v/v) under sonication for 1h.…”
Section: Experimental Methodsmentioning
confidence: 99%
“…The printed filler structure is extremely attractive for achieving high heat transfer performance in composite materials because it reduces the number of filler-polymer interfaces, preventing future polymer-filler heat transfer, and most importantly, energy is transmitted throughout filler skeletons. 145,146 A complex network of filler skeletons offers adequate phonon transfer channels with plentiful interface points of contact, which might also efficiently play a vital role in improving the thermal conductance of polymeric composites. 147 These materials' attractiveness stems mostly from their large heat conductivities, significant specific surface regions, low weights, and outstanding overall capability.…”
Section: Thermal Accumulationmentioning
confidence: 99%
“…[36] Indeed, 3D printing of GRM composites and inks has already been applied to thermal management, [37] supercapacitors, [38][39] batteries, [39] conductors, [40][41][42][43][44] composites, [43,[45][46][47][48] aerogels, [49] and scaffolds, [50] amongst others, and is a field with hundreds of paper published in the last few years (Figure 1a) and already thoroughly reviewed. [41,[50][51][52][53] Recently, other composites and inks containing 2D nanomaterials such as MXenes and hexagonal boron nitride were 3D printed for energy storage [54][55][56] and thermal management [57][58] applications, respectively.…”
Section: Introductionmentioning
confidence: 99%