Biophysical characterization and in vitro imaging of carbonized MOFs

“…[22][23][24] In these pioneering studies, some CNMs have been prepared by introducing carbon precursors into the MOF nanopores, while the direct carbonization of MOFs has recently become the mainstream choice. [25][26][27] The main reason is that MOF-derived CNMs could effectively maintain the structural features of MOF materials, such as high porosity, large specic surface area, high structural stability, and uniformly dispersed active sites. 27,[30][31][32] To date, researchers have been committed to improving their application performance from the initial selection of metal and ligands to the subsequent carbon synthesis.…”

Multidimensional MOF-derived carbon nanomaterials for multifunctional applications

“…[22][23][24] In these pioneering studies, some CNMs have been prepared by introducing carbon precursors into the MOF nanopores, while the direct carbonization of MOFs has recently become the mainstream choice. [25][26][27] The main reason is that MOF-derived CNMs could effectively maintain the structural features of MOF materials, such as high porosity, large specic surface area, high structural stability, and uniformly dispersed active sites. 27,[30][31][32] To date, researchers have been committed to improving their application performance from the initial selection of metal and ligands to the subsequent carbon synthesis.…”

Multidimensional MOF-derived carbon nanomaterials for multifunctional applications

Nanoscale MOFs: From synthesis to drug delivery and theranostics applications

Recent progress and challenges of MOF-based nanocomposites in bioimaging, biosensing and biocarriers for drug delivery