%0 Journal Article %A Hosokawa, Hitoshi %A Mochida, Tomoyuki %D 2015 %T Colorimetric Humidity and Solvent Recognition Based on a Cation-Exchange Clay Mineral Incorporating Nickel(II)–Chelate Complexes %U https://acs.figshare.com/articles/journal_contribution/Colorimetric_Humidity_and_Solvent_Recognition_Based_on_a_Cation_Exchange_Clay_Mineral_Incorporating_Nickel_II_Chelate_Complexes/2104624 %R 10.1021/acs.langmuir.5b03709.s001 %2 https://ndownloader.figshare.com/files/3737890 %K cationic complexes %K colorimetric humidity %K powders causes %K ion exchange %K water molecules %K powders exhibit color change %K detection range %K diamine ligands %K humidity response %K saponite clay %K donor number %K Colorimetric Humidity %K thermochromic powders %K color change %K Solvent Recognition %K Incorporating diethylene glycol %X Solvatochromic nickel­(II) complexes with diketonato and diamine ligands were incorporated into a saponite clay by ion exchange, and their colorimetric humidity- and solvent-recognition properties were investigated. These powders exhibit color change from red to blue-green depending on humidity, and the detection range can be controlled by modifying the metal complex. The humidity response takes advantage of the humidity-dependent water content in clay and the coordination of water molecules to the metal complex in equilibrium. The addition of organic solvents to the powders causes a color change to occur, varying from red to blue-green depending on the donor number of the solvent, thereby enabling solvent recognition. In the clay, the affinity of less sterically hindered complexes to water or solvent molecules is decreased compared with that in solution because the cationic complexes interact with the anionic layers in the clay. Incorporating diethylene glycol into the materials produced thermochromic powders. %I ACS Publications