Researchers have recently made a breakthrough in the field of zeolites, a type of porous material that has been used for decades to catalyze chemical reactions. Scientists have now developed a new kind of hybrid zeolite that is tunable, meaning that its properties can be easily adjusted to suit a variety of applications. This research opens the door to new ways of engineering zeolites to better suit specific needs, paving the way for a range of applications in fields like energy production, chemical synthesis, and environmental remediation.

The new hybrid zeolites are made by combining two different kinds of zeolite crystals in a single material. This combination allows for the partial interconversion of the two zeolites, meaning that the properties of the material can be easily adjusted. For example, the hybrid zeolite can be altered to increase its capacity for adsorption (the process of soaking up a substance from its surroundings), or to increase its catalytic activity (the ability to speed up a chemical reaction). This tunability makes the hybrid zeolites incredibly versatile and opens up the possibility for a range of new applications.

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source: Phys.org