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Development of micro / nano-size hollow silicate particles for thermal energy saving application

Published online by Cambridge University Press:  03 May 2016

Raymond V. Rivera-Virtudazo*
Affiliation:
Global Research Center for Environment and Energy Based on Nanomaterials Science (GREEN), National Institute for Materials Science (NIMS), Namiki, Tsukuba, Ibaraki 305-0044 Japan
Rudder T. Wu
Affiliation:
Atomic Network Materials Group, International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS), Tsukuba, Ibaraki 305-0044 Japan
Takao Mori
Affiliation:
Atomic Network Materials Group, International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS), Tsukuba, Ibaraki 305-0044 Japan
*
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Abstract

Design and fabrication of hollow silicate micro-/ nanoparticles (HSMNP) with varied sizes and morphologies are of great interest especially in developing new generation of thermal insulation materials for building applications. Efficient energy use, simply called energy-saving, involves efforts to reduce the amount of energy required and recover wasted energy. This is important since building constitutes a substantial part in the total global energy consumption. Therefore, the current study is aimed at developing new HSMNP for thermal insulation application.

Type
Articles
Copyright
Copyright © Materials Research Society 2016 

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References

REFERENCES

Zhao, Y., and Jiang, L., Adv. Mater. 21, 36213638 (2009).Google Scholar
GarcÃa-MartÃnez, J., and Wang, Z. L., Nanotechnology for the energy challenge (Wiley, 2013).Google Scholar
Virtudazo, R. V. R., Fuji, M., Takai, C., and Shirai, T., Tech 11, 3343 (2011).Google Scholar
Lai, X., Halpert, J. E., and Wang, D., Energy Environ. Sci. 5, 56045618 (2012).Google Scholar
Qi, G., Fu, L., and Giannelis, E. P., Nat Commun 5 (2014).Google Scholar
Qi, G., Wang, Y., Estevez, L., Duan, X., Anako, N., Park, A.-H. A., Li, W., Jones, C. W., and Giannelis, E. P., Energy Environ. Sci. 4, 444452 (2011).Google Scholar
Fuji, M., and Takai, C., "Application 59-superior thermal insulation film with transparency achieved by hollow silica nanoparticles," in Nanoparticle technology handbook (second edition), Yokoyama, M. H. N. N., ed. (Elsevier, 2012), pp. 679684.Google Scholar
Baetens, R., Jelle, B. P., and Gustavsen, A., Energy and Buildings 43, 761769 (2011).CrossRefGoogle Scholar
Chhajed, S., Poxson, D. J., Yan, X., Cho, J., Schubert, E. F., Welser, R. E., Sood, A. K., and Kim, J. K., Applied physics express 4, 052503 (2011).Google Scholar
Hu, J., Chen, M., Fang, X., and Wu, L., Chem. Soc. Rev. 40, 54725491 (2011).Google Scholar
D'Acunzi, M., Mammen, L., Singh, M., Deng, X., Roth, M., Auernhammer, G. K., Butt, H.-J., and Vollmer, D., Faraday Discuss. 146, 3548 (2010).Google Scholar
Blumm, J., Lindemann, A., and Min, S., Thermochim. Acta 455, 2629 (2007).CrossRefGoogle Scholar
Liao, Y., Wu, X., Wang, Z., Yue, R., Liu, G., and Chen, Y., MCP 133, 642648 (2012).Google Scholar
Fuji, M., Takai, C., and Virtudazo, R. V. R., Adv. Powder Technol. 25, 91100 (2014).Google Scholar
Liu, C., Wang, A., Yin, H., Shen, Y., and Jiang, T., Particuology 10, 352358 (2012).Google Scholar
Wu, W., Cao, S., Yuan, X., Zhao, Z., and Fang, L., JPMat 19, 913919 (2012).Google Scholar
Virtudazo, R. V. R., Watanabe, H., Shirai, T., Fuji, M., and Takahashi, M., IOP Conference Series: Materials Science and Engineering 18, 062014 (2011).CrossRefGoogle Scholar
Virtudazo, R. V. R., Wu, R. T., Zhao, S. Y., and Koebel, M. M., Mater. Lett. 126, 9296 (2014).Google Scholar
Virtudazo, R. V. R., Fuji, M., Takai, C., and Shirai, T., Nanotechnology 23, 485608 (2012).Google Scholar
Woo, H., and Char, K., Macromolecular Research 21, 10041010 (2013).Google Scholar
Virtudazo, R. V. R., Lin, Y., and Wu, R. T., RSC Advances 5, 104408104416 (2015).Google Scholar
Cui, Y. Q., and Riffat, S., Applied Mechanics and Materials 71, 19671970 (2011).CrossRefGoogle Scholar
Fujiwara, M., Shiokawa, K., Tanaka, Y., and Nakahara, Y., Chem. Mater. 16, 54205426 (2004).Google Scholar
Virtudazo, R. V. R., Fuji, M., and Shirai, T., Mater. Lett. 65, 31123115 (2011).Google Scholar