| Abstract
| - Two solutions of different concentration (that when mixed give rise to a common zeolite precursorgel) are separated by means of a laser-microperforated, 75 μm thick stainless steel sheet. During thehydrothermal synthesis, reactant diffusion from each side promotes crystallization of well-intergrownsilicalite-1 crystals on each microperforation (ca. 80 μm in diameter). This method allows a micrometriccontrol of the growth of the zeolitic material and has important advantages when compared with previoussystems.
- Two solutions of different concentration (that when mixed give rise to a common zeolite precursor gel) are separated by means of a laser-microperforated, 75 μm thick stainless steel sheet. During the hydrothermal synthesis, reactant diffusion from each side promotes crystallization of well-intergrown silicalite-1 crystals on each microperforation (ca. 80 μm in diameter). This method allows a micrometric control of the growth of the zeolitic material and has important advantages when compared with previous systems.
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