2-CHLOROBENZYLIDENEPYRUVATE WITH TRIVALENT ALUMINIUM , GALLIUM , INDIUM AND SCANDIUM METALS

Solid state compounds M-2-Cl-BP, where 2-Cl-BP is 2-chlorobenzylidenepyruvate and Mrepresents Al, Ga, In, and Sc were prepared. X-ray powder diffractometry, infrared spectroscopy andsimultaneous thermogravimetry-differential thermal analysis (TG-DTA), have been used to characterizeand to study the thermal behavior of these compounds. The results provided information concerning thestoichiometry, crystallinity, thermal stability and thermal decomposition of the compounds.

In this work, solid-state compounds of the trivalent ions with 2-chlorobenzylidenepyruvate, 2-Cl-C 6 H 4 CH=CHCOCOO-(2-Cl-BP) were prepared.The compounds were investigated by means of X-ray powder diffractometry, infrared spectroscopy and simultaneous TG-DTA.The results of the present study improve the knowledge on these compounds including their thermal stability and thermal decomposition.lium nitrates were prepared from the scandium oxide and metallic gallium by treatment with concentrated nitric acid.The resulting solutions were transferred to a volumetric flask, and their pH values were adjusted to 5 and 3, respectively, by the use of a solution of diluted nitric acid solution.Aqueous solutions of aluminium and gallium nitrates were prepared from the dissolution of the solid salts in water following by the adjustment of the pH value by using a solution of the diluted nitric acid adjusted to 3. The solidstate compounds were prepared by mixing with continuous stirring, the solution of the ligand with the respective metal nitrate solution until total precipitation of the metallic (III) pyruvates.The precipitates were washed with distilled water until elimination of the nitrate ions filtered through and dried on Whatman nº 42 filter paper, and kept in a desiccator over anhydrous calcium chloride.
In the solid-state compounds, the water, ligand and metallic contents were determined from the TG curves.
X-ray powder patters were obtained by using a Siemens D-500 X-ray diffractometer, employing CuKα radiation (λ = 1.541Å) and settings of 40 kV and 20 mA.Infrared spectra for 2-Cl-BP (sodium salt) as well as for the Al, Ga, In and Sc compounds, were run on a Nicolet mod.Impact 400 FT-IR instrument, within 4000-400 cm - 1 range.The solid samples were pressed into KBr pellets.
Simultaneous TG-DTA curves, were recorded on a model SDT 2960 thermal analysis system from TA Instruments.The purge gas was an air flow of 100 mL min-1.A heating rate of 20ºC min -1 was adopted, with samples weighing about 7mg.Alumina crucibles were used for recording the TG-DTA curves.

Results and discussion
The thermoanalytical data of the synthesized compounds are shown in Table 1.These results permitted to establish the stoichiometry of the compounds which is in agreement with the general formula M(2-Cl-BP)3.nH 2 O, where M represents Al, Ga, In, Sc; 2-Cl-BP is 2chlorobenzylidenepyruvate and n = 2, 2, 1.5 and 2.5, respectively.The X-ray powder patterns showed that all the compounds were obtained in amorphous state.The amorphous state is undoubledly related to the low solubity of these compounds, as already observed for compounds with other phenylsubstituted derivate of BP [8,13].
Main IR data on the sodium 2chlorobenzylidenepyruvate and its compounds with the metal ions considered in this work are shown in table 2. From the bands observed for 2-Cl-BP (sodium salt) one centered at 1686 cm -1 (ketonic carbonyl stretching) and another at 1618 cm -1 (antisymetrical carboxilate vibration) it is only the antisymmetrical carboxilate vibration that is shifted to lower frequencies in the compounds, namely 1590-1608 cm -1 , suggesting that the binding between the metal and the ligand occurs via the oxygen atom of the carboxilate group without participation of the oxigen atom of the α-ketonic carbonyl group.occurs with a large number of steps and through a more complex pathway than that observed from the TG curves.
For the aluminium compound the TG-DTA curves Figure 1, show that the thermal decomposition occurs in three steps between 30 and 600ºC.The first mass loss that occurs up to 140ºC, corresponding to the endothermic peak at 110ºC is due to the loss of 2 H 2 O (Calcd.= 5.21%; TG = 5.10%).The thermal decomposition of the anhydrous compound occurs in two steps between 140-430ºC and 430-600ºC, corresponding to the exotherm (280-400ºC) and exothermic peak (555ºC), with loss of 43.78% and 44.08%, respectively.The total mass loss up to 600ºC is in agreement with formation of Al 2 O 3 , as final residue (Calcd.= 92.63%;TG = 92.96%).For the gallium compound the TG-DTA curves, Figure 2, show mass losses between 40 and 600ºC.The first mass loss up to 130ºC, correspond-ing to the endothermic peak at 100ºC is due to the loss of 2 H 2 O of hidration water (Calcd.= 4.91%; TG = 4.76%).The thermal decomposition of the anhydrous compound occurs in two steps between 130-400ºC and 400-600ºC, corresponding to the exothermic peaks at 310ºC and 590ºC, with loss of 42.06% and 40.49%, respectively.The total mass loss up to 600ºC is in agreement with formation of Ga 2 O 3 , as final residue (Calcd.= 87.25%;TG = 87.31%).For the indium compound the TG-DTA curves Figure 3, show mass losses between 40-620ºC.The first mass loss up to 130ºC, corresponding to the endothermic peak at 90ºC is attributed to the dehydration with loss of 1.5 H 2 O (Calcd.= 3.51%; TG = 3.62%).The thermal decomposition of the anhydrous compound occurs in two steps between 130-400ºC and 400-620ºC, corresponding to the exothermic peaks at 320ºC and 580ºC, with loss of 38.34% and 39.86%, respectively.The total mass loss up to 620ºC is in agreement with formation of  In the scandium compound the TG-DTA curves, Figure 4, show mass loss between 40 and 540ºC.The first mass loss up to 140ºC, corresponding to the endothermic peak at 100ºC is ascribed to the dehydration with loss of 2.5 H 2 O (Calcd.= 6.27%;TG = 6.17%).The thermal decomposition of the anhydrous compound occurs in two steps between 140-460ºC and 460-540ºC, corresponding to the exothermic peaks at 287ºC and 510ºC, with loss of 52.54% and 31.69%,respectively.The total mass loss up to 540ºC is in agreement with formation of Sc 2 O 3 , as final residue (Calcd.= 90.41%;TG = 90.40%).

Conclusions
From TG curves, a general formula could be established for these compounds in the solid state.
The TG-DTA curves, X-ray powder patterns and infrared spectroscopic data provided previously unreported information concerning these compounds in the solid state.

Table 2 :
Main IR data for sodium and trivalent metallic 2-chrolobenzylidenepyruvates s: strong, m: medium, nsy COO-and nas COO-: symmetrical and anti-symmetrical vibrations of the COO-group, respectively.The simultaneous TG-DTA and TG/DTG curves of the synthesized compounds are shown in figures 1-4.In all TG-DTA curves the first mass loss corresponding to the endothermic peak is due to the to the loss of hydration water, which occurs in a single step.Immediately after the dehydration the TG curves indicate mass losses in two or three consecutive and/or overlapping steps, however the DTG curves show that the thermal decomposition Key: 2-Cl-BP is 2-chlorobenzylidenepyruvate Ecl.Quím., São Paulo, 28(1): 19-24, 2003