Oxalic acid

About: Oxalic acid is a research topic. Over the lifetime, 11584 publications have been published within this topic receiving 173263 citations. The topic is also known as: ethanedioic acid & H2ox.

Determination of residues in honey after treatments with formic and oxalic acid under field conditions

Abstract: Formic acid and oxalic acid field trials for control of Varroa destructor were carried out in autumn according to the Swiss prescriptions during three successive years in different apiaries in Switzerland. The following parameters were determined in honey that was harvested the year after treatment: formic acid, ox- alic acid and free acidity. The following range of values were found in honeys of untreated colonies: formic acid, from 17 to 284 mg/kg, n = 34; oxalic acid, from 11 to 119 mg/kg, n = 33. There was a small, but unproblematic increase in formic acid levels in comparison to the levels in the controls; average: 46 mg/kg, maximum: 139 mg/kg. No increase in formic acid was found with increasing number of treatment years. If emergency formic acid treatments were carried out in spring, the residue levels were much higher: average in- crease of 193 mg/kg, maximum 417 mg/kg. The oxalic acid content remained unchanged, even after two suc- cessive treatments during the same autumn. No rise of free acidity was encountered after a combined treatment with formic and oxalic acid during the three trial years. honey/residue/formic acid/oxalic acid/free acidity/Varroa destructor

Charge Density Analysis of Crystals of Nicotinamide with Salicylic Acid and Oxalic Acid: An Insight into the Salt to Cocrystal Continuum

Abstract: Charge density analysis from both experimental and theoretical points of view on two molecular complexes: one is formed between nicotinamide and salicylic acid, and the other formed between nicotinamide and oxalic acid brings out the quantitative topological features to distinguish a cocrystal from a salt.

Crystal engineering approach to improve the solubility of mebendazole

Abstract: An anthelmintic drug, mebendazole, shows a very low bioavailability (less than 10%) due to its poor aqueous solubility (0.035 mg/mL at 25 °C for form C). To improve its solubility, we combined a group of dicarboxylic acids with mebendazole via liquid-assisted grinding and reaction crystallization methods, and two salts with oxalic and maleic acids, as well as two co-crystals with malonic and glutaric acids, were obtained. These novel multi-component complexes were characterized by powder X-ray diffraction, differential scanning calorimetry, thermogravimetric analyses and infrared spectra. The single-crystal structures of mebendazole-maleate salt, mebendazole-glutaric acid co-crystal, and mebendazole-monomethyl oxalate salt, in which one of the carboxyl groups of oxalic acid was esterified during the single-crystal growth in methanol, were determined. It was observed that mebendazole combines dicarboxylic acid/ester via a R22(8) hydrogen-bonding motif that involves a carbamyl benzimidazole and a carboxyl group, resulting in the 1:1 stoichiometry. The powder dissolution studies revealed that the apparent solubility of the complexes was significantly increased after the formation of co-crystals and salts.