Hayati-Roodbari, N., Berger, R. J. F., Bernardi, J., Kinge, S., Hüsing, N., & Elsaesser, M. S. (2019). From sol-gel prepared porous silica to monolithic porous Mg2Si/ MgO composite materials. Journal of Sol-Gel Science and Technology, 89(1), 295–302. https://doi.org/10.1007/s10971-018-4778-8
E057-02 - Fachbereich Universitäre Serviceeinrichtung für Transmissions- Elektronenmikroskopie
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Journal:
Journal of Sol-Gel Science and Technology
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ISSN:
0928-0707
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Date (published):
2019
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Number of Pages:
8
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Peer reviewed:
No
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Keywords:
Condensed Matter Physics; Electronic, Optical and Magnetic Materials; General Chemistry; Biomaterials; Ceramics and Composites; Materials Chemistry
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Abstract:
Mg2Si is apart from its conductivity properties expected to be a promising candidate for thermoelectric applications due to its
low toxicity, low costs, and the high abundance of its precursor chemicals. Through the addition of a homogeneous
distribution of nanoparticles (e.g. MgO) and by reducing the size of Mg2Si to the nanometer regime, it is possible to decrease
the thermal conductivity by increasing phonon-interface scattering and, as a result, improve the thermoelectric properties.
However, classical approaches do not allow for the synthesis of nanocomposites from Mg2Si and MgO. In this work, a
straightforward route is presented towards homogeneously mixed Mg2Si/MgO via a two-step magnesiothermic reduction
process starting from sol-gel derived hierarchically organized porous silica. Monolithic materials composed of Mg2Si and
MgO in variable molar ratios are built up from a macroporous network of Mg2Si with homogeneously distributed MgO
particles exhibiting a crystallite size in the range of 24-37 nm.
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Research Areas:
Surfaces and Interfaces: 30% Materials Characterization: 30% Special and Engineering Materials: 40%
