Metal-Organic Frameworks (MOFs) are an emerging class of solid-state materials comprising inorganic elements and organic molecules. These hybrid materials are widely recognized for their diverse properties, rendering them indispensable in the field of organic synthesis, material science and the pharmaceutical industry. Although the traditional batch methods for MOFs synthesis are well-developed, they often struggle with reproducibility, scalability and environmental issues.
View Article and Find Full Text PDFThe phase changes of soil water or porous media have a crucial influence on the performance of natural and man-made infrastructures in cold regions. While various methods have been explored to address the impacts of frost-action arising from these phase changes, conventional approaches often rely on chemicals, mechanical techniques, and the reuse of waste materials, which often exhibit certain limitations and environmental concerns. In contrast, certain organisms produce ice-binding proteins (IBPs) or antifreeze proteins (AFPs) to adapt to low temperatures, which can inhibit ice crystal growth by lowering the freezing point and preventing ice crystallization without the need for external intervention.
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