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Index of Contents of Volumes 1–49 xxxix – of R2Fe14B-based alloys 12, ch. 82, p. 71 – of R5T4 intermetallic compounds 44, – Sm(III)/Sm(II) 36, ch. 230, p. 393 relativistic effects and electronic structure 18, ch. 119, p. 29 ring opening polymerization (ROP) 44, ch. 259, p. 1 RNA, cutting of 34, ch. 222, p. 405, 36, ch. 262, p. 283 pnictides 4, ch. 33, p. 153 – magnetic measurements on mono- ch. 114, p. 301 17, polishing powders, recycling of 43, ch. 255, p. 159 polymerization, stereospecific catalysis – with borohydride complexes 44, ch. 259, p. 1 – with coordination complexes 9, ch. 61, p. 395 polyoxometalates 38, ch. 240, p. 337 – luminescence of 39, ch. 243, p. 297 positron annihilation in high-temperature superconductors 30, ch. 192, p. 417 preparation and purification of metals 1, ch. 2, p. 173 pressure-induced – cross-over 42, ch. 252, p. 83 – electronic transitions 42, ch. 252, p. 82 – magnetic order 42, ch. 252, p. 129 – structural transitions 43, ch. 257, p. 275; ch. 229, p. 392 S samarium(II) reductants 36, ch. 230, p. 393 scandium – alloy systems and intermetallics 27, ch. 175, p. 339 – arene complexes 45, ch. 266, 261 scanning tunneling microscopy of cuprates 31, ch. 204, p. 563 Schiff’s base complexes 43, ch. 254, p. 1 44, ch. 262, p. 283 – superconductivity 42, ch. 252, p. 96 pyrochlores 16, ch. 107, p. 225 pyrometallurgy, in rare-earth recycling 43, ch. 247, p. 301 separation chemistry 3, ch. 22, p. 81; 18, ch. 121, p. 197; 21, ch. 139, p. 1; 43, ch. 256, p. 213; 48, ch. 277, p. 287 – analytical, basic chemistry and methods 28, ch. 180, p. 311 – silicon solar cells, lanthanides in 44, ch. 261, p. 169 separation equipment 48, ch. 277, p. 287 shift reagents 4, ch. 38, p. 483; 23, ch. 153, p. 1; 33, ch. 215, p. 353; 35, ch. 225, p. 107 single crystals – growth from molten metal fluxes 12, ch. 81, p. 53 – growth of cuprates 30, ch. 189, p. 67 – growth of metals and intermetallic compounds 12, ch. 80, p. 1 skutterudites, filled 33, ch. 211, p. 1 single-source precursor 47, ch. 270, p. 101 solar energy conversion, lanthanides in 44, ch. 261, p. 169 solid electrolytes 28, ch. 178, p. 131; 35, ch. 223, p. 1 solid oxide fuel cells (SOFC) 35, ch. 223, p. 1 solution chemistry 15, ch. 103, p. 393; 18, ch. 127, p. 529; 18, ch. 128, p. 559; 21, ch. 145, 305 solvation – in organic solvents 21, ch. 145, p. 305 – thermodynamic model 47, ch. 272, p. 209 ch. 255, p. 159 actinides 49, ch. 280, p. 293 quantum information processing (QIP) 46, ch. 267, p. 1 quantum memory 46, ch. 267, p. 1 quantum phase transitions 49, ch. 280, p. 293 quasicrystalline, Al- and Mg-based systems Q qubit R 24, ch. 161, p. 83 46, ch. 267, p. 1 46, ch. 267, p. 1 quantum computing quantum critical matter 49, ch. 280, p. 293 quantum criticality in rare earths and radiative process, in NIR-emitting complexes 47, ch. 269, p. 1 Raman scattering of cuprates rare-earth doped crystals – spectroscopy 46, ch. 267, p. 1 recycling of rare earths 43, ch. 255, p. 159 redox reactions – arene-bridged complexes 45, ch. 266, p. 261 – in aqueous solutions 15, ch. 102, p. 347 – Ce(IV)/Ce(III) 36, ch. 229, p. 347 31, ch. 203, p. 509 35, ch. 224, p. 45 4, ch. 31, p. 1 selenates selenides selenites self-assembly of helicates 40, 35, ch. 224, p. 45PDF Image | HANDBOOK ON THE PHYSICS AND CHEMISTRY OF RARE EARTHS
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