Evaporation‐induced Self‐assembly Process Controlled for Obtaining Highly Ordered Mesoporous Materials with Demanded Morphologies |
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Authors: | Tatsuo Kimura |
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Institution: | Inorganic Functional Materials Research Institute National Institute of Advanced Industrial Science and Technology (AIST), Shimoshidami Moriyama‐ku, Nagoya, Japan |
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Abstract: | A large number of periodic mesoporous materials have been reported using amphiphilic organic molecules with increasing development of synthetic methods for mesostructural, morphological, and compositional designs. The evaporation‐induced self‐assembly (ESIA) process to fabricate ordered mesoporous films is one of the most essential synthetic methods, which has extensively been applied for obtaining a wide variety of samples (e.g., films and monoliths, including powders). It contains complicated physical variations and chemical reactions, but has been simply explained by several research groups. However, a current, exact understanding of such complicated systems should be given with respect to all the variations and reactions. In this article, I have mainly surveyed the exact EISA process by considering the difference between simple and controlled EISA processes on the basis of my own experiments. I believe that the insights are consequently helpful for obtaining highly ordered mesoporous materials with demanded morphologies. |
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Keywords: | EISA film powder self‐assembly surfactants |
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