https://www.selleckchem.com/products/ezatiostat.html Herein, we report the rational design, synthesis, and characterization of α,α'-diamino-substituted-p-quinodimethanes, which are a group of partially substituted p-quinodimethanes. These exhibit two reversible one-electron redox steps and electrochromism in the ultraviolet, visible, and near-infrared regions. We were able to isolate the crystalline compounds of all three oxidation states neutral, radical cation, and dication. The obtained results not only create the bridge between p-quinodimethane and α,α,α',α'-tetrasubstituted-p-quinodimethane, but also demonstrate the straightforward modular approach for the synthesis of π-conjugated open-shell compounds.Considering the high cost of the production of semaglutide, which is currently the most promising antidiabetic drug especially for the treatment of type 2 diabetes mellitus, a new synthetic route of semaglutide production that possesses excellent yield and high purity is of vital importance. Herein, we reported a newly developed synthetic route of semaglutide that is simple and efficient, based on a soluble hydrophobic-support-assisted liquid-phase synthetic method by applying Alloc-chemistry to the synthesis of the main chain peptide and side chain peptide of semaglutide. With careful optimization of the reaction conditions and innovative strategy of post-synthetic treatments, the total yield and purity of the crude semaglutide was improved satisfactorily.It is widely assumed that the gain or loss of electrons in a material must be accompanied by its reduction or oxidation. #link# Here, we report a system in which the insertion/deinsertion of an electron occurs without any reduction or oxidation. Using first-principles methods, we demonstrate this effect in the Y2CF2-[Y2C]2+(e-)2 material system, where (e-) indicates a lattice site containing a bare electron. We present a model in which Y2CF2 is in contact with a fluoride-containing electrolyte and the applicati