139La NMR Kinetic Study of Lanthanum(III) Complexation with Acetohydroxamic Acid

## Abstract The reduction of Fe(CN)~5~L^2−^ (L = pyridine, isonicotinamide, 4,4′‐bipyridine) complexes by ascorbic acid has been subjected to a detailed kinetic study in the range of pH 1–7.5. The rate law of the reaction is interpreted as a rate determining reaction between Fe(III) complexes and t

## Abstract The boric acid–catechol system in aqueous solutions has been studied by means of ^11^B, ^1^H and ^13^C NMR over wide ranges of concentration and pH. ^11^B spectra show a striking difference between the complexation possibilities of dilute and more concentrated solutions of boric acid. B

The Ce(III)-, Mn(II)-, or ferroin reaction of bromate ion and 2ϩ (Fe(phen) )-catalyzed 3 pyruvic acid (PA) or its dimer exhibits oscillatory behavior. Both the open-chain dimer (parapyruvic acid, ␥-methyl-␥-hydroxyl-␣-keto-glutaric acid, DPA1) and the cyclic-form dimer (␣keto-␥-valerolactone-␥-carbo

In a stirred batch experiment, ferroin [Fe(phen):') behaves differently from Ce(lll) as a catalyst for the Belousov-Zhabotinsky reaction with ethyl-or n-butyl-malonic acid 1 EtMA or BuMAl The effects of bromate ion, organic substrate, metal-ion catalyst, and sulfuric acid on the oscillating pattern

In a stirred batch reactor, the Ce(III)-or Mn(II)-catalyzed Belousov-Zhabotinsky reaction with mixed organic acid/ketone substrates exhibits oscillatory behavior. The organic acids studied here are: dl-mandelic acid (MDA), dl-4-bromomandelic acid (BMDA), and dl-4hydroxymandelic acid (HMDA), and the

## Abstract The protonation constants of 2‐[4,7,10‐tris(phosphonomethyl)‐1,4,7,10‐tetraazacyclododecan‐1‐yl]acetic acid (H~7~DOA3P) and of the complexes [Ln(DOA3P)]^4−^ (Ln=Ce, Pr, Sm, Eu, and Yb) have been determined by multinuclear NMR spectroscopy in the range pD 2–13.8, without control of ionic