INTERNATIONAL UNION OF PURE AND APPLIED CHEMISTRY | |||
ANALYTICAL CHEMISTRY DIVISION | |||
COMMISSION ON SOLUBILITY DATA | |||
SOLUBILITY DATA SERIES | |||
Editor-in-Chief | |||
A. S. KERTES | |||
Volume 30 | |||
ALKALI METAL HALATES, AMMONIUM IODATE AND IODIC ACID | |||
Volume Editors | |||
HIROSHI MIYAMOTO | Niigata University Niigata, Japan | ||
MARK SALOMON | US Army ET & DL (LABCOM) Fort Monmouth, NJ, USA | ||
BRUNO SCROSATI | University of Rome Italy | ||
Contributors | |||
GABOR JANCSO | Hungarian Academy of Sciences Budapest, Hungary | ||
RAUL HERRERA | Ohio State University Columbus, OH, USA | ||
THEODORE P. DIRKSE | Calvm College Grand Rapids, Ml, USA | ||
ANDRZEJ MACZYNSKI | Polish Academy of Sciences Warsaw, Poland | ||
ALEXANDER VAN HOOK | University of Tennessee Knoxville, TN, USA | ||
MICHELLE C. UCHIYAMA | US Army ET & DI (LABCOM) Fort Monmouth, NJ, USA | ||
Copyright © 1987 International Union of Pure and Applied Chemistry | |||
Contents | v | ||
Foreword | viii | ||
Preface | xi | ||
Introduction to the Solubility of Solids in Liquids | xv | ||
1 | Lithium chlorate | ||
1.1 | Evaluation of aqueous systems | 1 | |
1.2 | Binary aqueous system | 11 | |
1.3 | Ternary systems | 20 | |
1.4 | Nonaqueous systems | 23 | |
2 | Sodium chlorate | ||
2.1 | Evaluation of aqueous systems | 24 | |
2.2 | Binary aqueous system | 34 | |
2.3 | Ternary systems | 37 | |
2.4 | More complex systems | 82 | |
2.5 | Nonaqueous systems | 98 | |
3 | Potassium chlorate | ||
3.1 | Evaluation of aqueous systems | 105 | |
3.2 | Binary aqueous system | 113 | |
3.3 | Ternary systems | 121 | |
3.4 | Nonaqueous systems | 157 | |
4 | Rubidium chlorate | ||
4.1 | Evaluation of aqueous systems | 162 | |
4.2 | Binary aqueous system | 166 | |
4.3 | Ternary systems | 169 | |
4.4 | More complex systems | 174 | |
5 | Cesium chlorate | ||
5.1 | Evaluation of aqueous systems | 176 | |
5.2 | Binary aqueous system | 179 | |
5.3 | Ternary systems | 182 | |
6 | Lithium Brornate | ||
6.1 | Evaluation of aqueous systems | 184 | |
6.2 | Binary aqueous system | 188 | |
6.3 | Ternary systems | 192 | |
6.4 | Nonaqueous system | 194 | |
7 | Sodium Brornate | ||
7.1 | Evaluation of aqueous systems | 194 | |
7.2 | Binary aqueous system | 198 | |
7.3 | Ternary systerns | 200 | |
7.4 | More complex systems | 216 | |
7.5 | Nonaqueous systems | 216 | |
8 | Potassium brornate | ||
8.1 | Evaluation of aqueous systems | 220 | |
8.2 | Binary aqueous system | 224 | |
8.3 | Ternary Svsterns | 228 | |
8.4 | Nonaqueous systems | 254 | |
9 | Rubidium Bromate | ||
9.1 | Evaluation of aqueous systems | 258 | |
9.2 | Binary aqueous system | 260 | |
9.3 | Ternary systems | 262 | |
10 | Cesium bromate | ||
10.1 | Evaluation of aqueous systems | 263 | |
10.2 | Binary aqueous system | 265 | |
11 | Lithium iodate | ||
11.1 | Evaluation of aqueous systems | 268 | |
11.2 | Binary aqueous system | 276 | |
11.3 | Ternary systems | 279 | |
11.4 | More complex systems | 320 | |
11.5 | Nonaqueous systems | 328 | |
12 | Sodium iodate | ||
12.1 | Evaluation of aq ueous systems | 330 | |
12.2 | Binary aqueous system | 340 | |
12.3 | Ternary systems | 343 | |
12.4 | Nonaqueous systems | 173 | |
13 | Potassium iodate | ||
13.1 | Evaluation of aqueous systems | 374 | |
13.2 | Binary aqueous system | 383 | |
13.3 | Ternary systems | 388 | |
13.4 | More complex systems | 409 | |
13.5 | Mixed solvents and pure nonaqueous systems | 411 | |
14 | Rubidium iodate | ||
14.1 | Evaluation of aqueous systems | 428 | |
14.2 | Binary aqueous system | 432 | |
14.3 | Ternary systems | 435 | |
15 | Cesium iodate | ||
15.l | Evaluation of aqueous systems | 448 | |
15.2 | Binary aqueous system | 451 | |
15.3 | Ternary systems | 454 | |
16 | Ammonium iodate | ||
16.1 | Evaluation of aqueous systems | 461 | |
16.2 | Binary aqueous system | 463 | |
16.3 | Ternary systems | 464 | |
17 | Iodic acid | ||
17.1 | Evaluation of aqueous systems | 467 | |
17.2 | Binary aqueous system | 474 | |
17.3 | Ternary systems | 475 | |
System Index | 491 | ||
Registry Number Index | 503 | ||
Author Index | 506 | ||