3 April 2013 Development of novel multifunctional biobased polymer composites with tailored conductive network of micro-and-nano-fillers
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Abstract
Biobased/green polymers and nanotechnology warrant a multidisciplinary approach to promote the development of the next generation of materials, products, and processes that are environmentally sustainable. The scientific challenge is to find the suitable applications, and thereby to create the demand for large scale production of biobased/green polymers that would foster sustainable development of these eco-friendly materials in contrast to their petroleum/fossil fuel derived counterparts. In this context, this research aims to investigate the synergistic effect of green materials and nanotechnology to develop a new family of multifunctional biobased polymer composites with promoted thermal conductivity. For instance, such composite can be used as a heat management material in the electronics industry. A series of parametric studies were conducted to elucidate the science behind materials behavior and their structure-toproperty relationships. Using biobased polymers (e.g., polylactic acid (PLA)) as the matrix, heat transfer networks were developed and structured by embedding hexagonal boron nitride (hBN) and graphene nanoplatelets (GNP) in the PLA matrix. The use of hybrid filler system, with optimized material formulation, was found to promote the composite’s effective thermal conductivity by 10-folded over neat PLA. This was achieved by promoting the development of an interconnected thermally conductive network through structuring hybrid fillers. The thermally conductive composite is expected to afford unique opportunities to injection mold three-dimensional, net-shape, lightweight, and eco-friendly microelectronic enclosures with superior heat dissipation performance.
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Siu N. Leung, Siu N. Leung, Shahriar Ghaffari, Shahriar Ghaffari, Hani E. Naguib, Hani E. Naguib, } "Development of novel multifunctional biobased polymer composites with tailored conductive network of micro-and-nano-fillers", Proc. SPIE 8689, Behavior and Mechanics of Multifunctional Materials and Composites 2013, 86890F (3 April 2013); doi: 10.1117/12.2009802; https://doi.org/10.1117/12.2009802
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