Stepwise formation of a chemodynamic therapy agent of {Cu8} macrocyclic complex recognized by iodide ions

An atomically precise Cu(I) macrocyclic complex Cu8I was developed for chemodynamic therapy (CDT) research. The {Cu8} macrocyclic skeleton gradually forms with the selective recognition of iodide ions, and the monitoring of intermediate fragments during Cu8I formation using time-dependent electrospray ionization mass spectrometry indicates the following possible formation process: [Cu1] → [Cu2] → [Cu3] → [Cu4] → [Cu5I] → [Cu6I] → [Cu7I] → [Cu8I] when recognized by iodide ions. Furthermore, the Cu(I)-mediated Fenton-like reaction in Cu8I catalyzes the production of toxic ˙OH from H2O2, which results in efficient tumor suppression.

Tracking the Stepwise Formation of a Water-Soluble Fluorescent Tb12 Cluster for Efficient Doxorubicin Detection

Doxorubicin (DOX) is an anthraquinone drug used for the efficient treatment of a variety of tumors in human beings. Unfortunately, its poor biodegradability causes incomplete metabolism in the body. Therefore, it is of great significance to synthesize a sensitive and selective material for DOX detection. In this paper, we report a water-soluble Tb₁₂ cluster and track its step-by-step formation (L → Tb₁L₁ → Tb₂L₁ → Tb₂L₂ → Tb₃L₂ → Tb₄L₂ → Tb₁₂L₆). Tb₁₂ can be used to determine the presence of DOX, which quenches the luminescence of the Tb₁₂ aqueous solution, and the detection limit can reach 13 nM (K_SV = 8.7 × 10⁵ M^-1). Tb₁₂ has advantages of high sensitivity and high selectivity for the detection of DOX in a simulated environment of human urine and serum.

Crystal structure, assembly process, and single-molecule magnet behavior of a triangular prismatic {Co9} cluster

The crystal structure, assembly process and magnetic properties of a triangular prismatic [Co9(btdpa)3(CH2OCH2OH)6]·3.5H2O were reported: the cluster exhibits slow magnetization relaxation of single molecule magnets at zero field.

Three-fold interpenetrated metal–organic framework as a multifunctional fluorescent probe for detecting 2,4,6-trinitrophenol, levofloxacin, and l-cystine

A robust Zn(ii) MOF with good chemical and thermal stability, was prepared as an effective fluorescent probe for 2,4,6-trinitrophenol (TNP), levofloxacin (LVX) and l-cystine (l-Cys) with recyclability.