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Zeolitic imidazolate framework - Wikipedia The breakthrough material ZIF-8, composed of zinc ions and 2-methylimidazolate linkers, exemplifies the unique properties of ZIFs ZIF-8 demonstrated exceptional chemical and thermal stability, coupled with a highly selective pore system, making it suitable for demanding applications like carbon dioxide capture and hydrocarbon separation [11]
Synthesis and modification of ZIF-8 and its application in drug . . . ZIF-8 can be used as pH-responsive drug release system of anti-cancer drugs, antibacterial drugs, and small molecules The reason why ZIF-8 is pH sensitive is that acidic conditions can protonate organic ligands, leading to the cleavage of the Zn +-imidazolium ion coordination bond, thereby decomposing the ZIF-8 skeleton to release the drug 61,62
Structural Chemistry of Zeolitic Imidazolate Frameworks Despite their potential, two questions remain unanswered: how to synthesize more diverse ZIF structures and how ZIFs differentiate from other crystalline solids In other words, how can we use our understanding of their unique structures to better design and synthesize ZIFs?
Compression‐Induced Amorphization of ZIF‐62 Leading to Formation of . . . ZIF-62 consists of two different linkers, viz , bIm and Im, and their relative concentration in the crystalline ZIF-62 affects its thermal, mechanical, and textural properties The relative concentration of bIm and Im in the as-synthesized crystalline ZIF-62 has been determined using 1 H NMR as shown in Figure S1, Supporting Information
Zeolitic imidazolium framework (ZIF-8) and their derivative-based . . . This review summarizes the current advancements of ZIF-8, different synthesis strategies, and their modification with different metals, metal oxides, noble metals, polymers, and antibiotics to enhance their performance towards antibacterial action on Gram-stained bacteria (positive and negative)