Abstract
Copper(II) L-tartrate trihydrate, L-CuC4H4O6·3H2O, and copper(II) DL-tartrate dihydrate, DL-CuC4H4O6·2H2O, crystals were grown at room temperature by the gel method using silica gels as the growth medium. Differential scanning calorimetry, thermogravimetric-differential thermal analysis, and X-ray diffraction measurements were performed on both crystals. The space group symmetries (monoclinic P21 and P21/c) and structural parameters of the crystals were determined at room temperature and at 114 K. Both structures consisted of slightly distorted CuO6 octahedra, C4H4O6 and H2O molecules, C4H4O6–Cu–C4H4O6 chains linked by Cu–O bonds, and O–H–O hydrogen-bonding frameworks between adjacent molecules. Weight losses due to thermal decomposition of the crystals were found to occur in the temperature range of 300–1250 K. We inferred that the weight losses were caused by the evaporation of bound water molecules and the evolution of H2CO, CO, and O2 gases from C4H4O6 molecules, and that the residual reddish-brown substance left in the vessels after decomposition was copper(I) oxide (Cu2O).
Highlights
Many tartrate compounds are formed by the reaction of tartaric acid with compounds containing positive ions (Desai & Patel, 1988; Fukami, Hiyajyo, Tahara, & Yasuda, 2017; Fukami & Tahara, 2018; Fukami & Tahara, 2020; Labutina, Marychev, Portnov, Somov, & Chuprunov, 2011)
Single crystals of L-CuC4H4O6·3H2O and DL-CuC4H4O6·2H2O were grown in silica gel medium using gel technique at room temperature
The structures and thermal properties of these crystals were studied by means of X-ray diffraction, differential scanning calorimetry (DSC), and thermogravimetric-differential thermal analysis (TG-DTA)
Summary
Many tartrate compounds are formed by the reaction of tartaric acid with compounds containing positive ions (i.e., two monovalent cations or one divalent cation) (Desai & Patel, 1988; Fukami, Hiyajyo, Tahara, & Yasuda, 2017; Fukami & Tahara, 2018; Fukami & Tahara, 2020; Labutina, Marychev, Portnov, Somov, & Chuprunov, 2011). Tartaric acid (chemical formula: C4H6O6; systematic name: 2,3-dihydroxybutanedioic acid) has two chiral carbon atoms in its structure, which provides the possibility for four possible different forms of chiral, racemic, and achiral isomers: L(+)-tartaric, D(–)-tartaric, racemic (DL-) tartaric, and meso-tartaric acid (Bootsma & Schoone, 1967; Fukami, Tahara, Yasuda, & Nakasone, 2016; Song, Teng, Dong, Ma, & Sun, 2006) Some of these compounds are of interest because of their physical properties, their excellent dielectric, ferroelectric, piezoelectric, and nonlinear optical properties (Abdel-Kader et al, 1991; Firdous, Quasim, Ahmad, & Kotru, 2010; Torres et al, 2002). The thermal properties of these crystals are studied by differential scanning calorimetry (DSC) and thermogravimetric-differential thermal analysis (TG-DTA)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
