Microwave hydrothermal synthesis and characterization of aluminum substituted tobermorite

抄録

In tackling the sustainability challenges encountered in conventional hydrothermal synthesis, the microwave hydrothermal synthesis emerges as a promising approach, offering various advantages such as accelerated heating and energy efficiency owing to its unique volumetric heating property. This method presents a potential solution to the limitations inherent in conventional hydrothermal synthesis techniques. The synthesis of aluminum substituted tobermorite (Al-tobermorite) was conducted by using conventional and microwave hydrothermal methods, the experimental results were compared and the mechanism of microwave heating was revealed. Results show the optimal Al/Si ratio for synthesizing Al-tobermorite was identified as 0.15. Microwave hydrothermal synthesis of Al-tobermorite demonstrated a notable advantage in efficiency, requiring only about one-seventh of the time needed for conventional hydrothermal synthesis. At the same time, the Al-tobermorite produced via microwave hydrothermal synthesis exhibited a larger specific surface area and pore volume compared to its conventionally synthesized counterpart. Fourier Transform Infrared Spectrometer (FTIR) spectroscopy results consistently indicate that in the structure of Al-tobermorite, regardless of the synthesis method, aluminum substitutes silicon at the Q² and Q³ positions. The findings can provide valuable insights for the efficient processing of materials containing aluminum and serve as a practical reference in applications and waste management, conforming to the contemporary policy requirements for sustainable development.