INDEX 435—, matrix <strong>of</strong> for trapped radicals, 332inert packing, in catalytic reactor, 233inert particles, for flamevelocity measurement,171inert support, for catalysts, 221infrared emission, from vibrationaliy excitedspecies, 287infrared spectroscopy, absorption, 216-219—, and analysis, 89, 90inhibitors, study <strong>of</strong> effect <strong>of</strong>, apparatus for,14, 15—, quenching reactions by, 281initial concentration ratio, and determination<strong>of</strong> reaction orders, 351-353, 358-360—, and integrated rate expressions, 386, 387initiation, in CH 3 CHO decomposition, 3—, in H 2 -hCl 2 +O a reaction, 101—, surface, <strong>of</strong> chain reactions, 11integral reactors, for catalytic flow system, 231integrated rate expressions, 361, 387intensity <strong>of</strong> products, and angle from crossedmolecular beams, 174intensity <strong>of</strong> radiation, determination <strong>of</strong>, 55—, <strong>of</strong> Hg lamps, 41, 44-47, 49, 52, 53—, <strong>of</strong> pulsed illumination, 51interference filters, for radiation, 58interferometry, 102, 103—, and solid state reactions, 261intermediates, and relaxation times, 131, 132—, determination <strong>of</strong> by mass spectroscopy,294-308—, — by optical spectroscopy, 284-294—, types <strong>of</strong> in reactions, 280-284intermittent radiation, 48-51interstitial atoms in solids, ESR study, 310iodide ions, exchange with surface monolayer,270iodine, as radical trap, 74, 316—, as scavenger in radiolysis, 70—, determination <strong>of</strong> by spectroscopy, 89—, dissolution <strong>of</strong> metals by, 253—, reaction + CH 8 , 74—, reaction + CH 4 , 89iodine atoms, reaction + silica, 11—, study by ESR, 313iodostearic acid, surface monolayer, exchangewith I-, 270ion bombardment, to clean surfaces, 182, 184,185, 199, 216—, to produce films, 183 *ion gauge, for pressure measurement, 186,194,197, 203—, for topatron, 242ionic strength, effect on rate coefficient, 406,407ionisation chamber, for determination <strong>of</strong> £-rad'mtion, 238—, in dosimetry, 68, 69—, <strong>of</strong> mass spectrometer, radical removal atwalls, 297ionisation cross-section, and concentrations bymass spectrometer, 299ionisation detector, in molecular beam studies,173ionisation in flames, 284ionisation potentials, and ions in flames, 284—, and molecular beam detectors, 173—, and radical determination mass spectrometrically,296, 297ionising electrode method, for surface potentials,268ion-molecule reactions, 284, 306—, and radical determination mass spectrometrically,297—, mass spectrometer for, 95ion-pair formation, study by ultrasonic absorption,142, 149ion-pair yield, in radiolysis, 67ions, as intermediates, 283, 284—, determination by mass spectroscopy, 306-308—, in aqueous solution, reactions <strong>of</strong>, 113—, in gas, determination <strong>of</strong>, 328-331—, in radiolysis, 6, 63, 64—, positive, production <strong>of</strong>, 65—, reaction -f hydrated electron, 122, 123ion-source, in mass spectrometer, 93, 94iridium, filament <strong>of</strong> in ion gauge, 197—, hydrocarbon adsorption on, 204—, preparation <strong>of</strong> films <strong>of</strong>, 183iridium oxide, chemical transport <strong>of</strong>, 248iron, carbon precipitation in, 255, 260, 263—, chemisorption on, 190—, cleaning surface <strong>of</strong>, 181, 184, 185—, dissolution in aq. HC1, 253—, preparation <strong>of</strong> film <strong>of</strong>, 183—, skeletal catalyst, preparation <strong>of</strong>, 221isolation method, for determining reactionorders, 2isomerisation, cis-trans, catalysed by radicals,72—, <strong>of</strong> butenes, study using microcatalyticreactor, 234—, <strong>of</strong> methyl salicylate and fluorescencequenching, 155isoprene, polymerisation <strong>of</strong>, processing data,: : 409-418isotopes, analysis by mass spectroscopy, 95—, exchange <strong>of</strong> between gas and solid, 248,249
436 INDEXisotopes (contd.J—, use in catalytic reactions, 235-239—, use in kinetics, 65, 77, 78—, use to determine intermediates, 317, 318Kkatharometer, detector in gas chromatography,82, 83—, use in solid decomposition studies, 247Kelvin double bridge, 213Kerr cell, and fluorescence quenching, 153ketene, determination by IR spectroscopy, 90—, flash photolysis <strong>of</strong>, 305kieselguhr, as liquid support in gas chromatography,80kinetic current, in electroreduction, 158kinetic spectroscopy, 285, 286Knudsen diffusion, and catalysis, 224, 229, 231krypton, effect on radiolysis, 70—, matrix <strong>of</strong> for trapped radicals, 334—, resonance lamps, 52, 54, 118Llamps, for pulsed illumination, 50; see alsomercury lamps etc.Langmuir-Adams trough, 265-267Langmuir probe, to determine ions in flames,328, 329lanthanum, chemisorption on, 190lanthanum boride, coating <strong>of</strong> on filament forion gauge, 197lasers, for T-jump, 135—, use in photochemistry, 55, 56lattice defects, and solid state reactions, 254lead, chemisorption on, 190lead, mirrors <strong>of</strong>, removal by radicals, 314, 315lead oxide, from PbEt 4 and anti-knock, 120lead tetraethyl, flash photolytic study <strong>of</strong> antiknockaction, 120, 121lead tetramethyl, decomposition <strong>of</strong>, 314leaks, and Langmuir trough, 267—, in apparatus for determination <strong>of</strong> effectivediffusivity, 226, 227—, to mass spectrometers, 94, 95, 302-304least squares line, 370, 382, 404, 411, 412LeRoy still, 33, 34lifetime, <strong>of</strong> CF 3 COr, 152—, <strong>of</strong> excited aminopyrenes, 156—, <strong>of</strong> excited states <strong>of</strong> Hg, 37—, <strong>of</strong> fluorescing species, 115, L52, 153—, <strong>of</strong> H-bonded states, 148—, <strong>of</strong> Hg vapour lamps, 43, 44—, <strong>of</strong> radiative transitions, 291—, <strong>of</strong> radicals, determination <strong>of</strong>, 48-51—, <strong>of</strong> states and ESR, 150—, <strong>of</strong> states and NMR, 145—, <strong>of</strong> Xe or Kr lamps, 53limiting current in polarography, 159-161Lindemann theory <strong>of</strong> unimolecular reactions,15, 16line reversal, in Hg lamps, 41, 42line width, in ESR, 150—, in NMR, 144-147liquid-gas interface, study <strong>of</strong>, 263-270lithium, n-butyl, initiator for isoprene polymerisation,409lithium salts, for determination <strong>of</strong> H in flames,171, 318lubricants, for vacuum taps, 7MMcLeod gauge, 29, 31—, use in adsorption studies, 188magnesium, complex formation, application<strong>of</strong> T^jump, 136magnesium carbonate, decomposition <strong>of</strong>, 247magnesium ions, reaction + 8-hydroxyquinoline,131-133magnesium oxide, as catalyst support, 222—, chemisorption on, 190—, clean surface by cleavage, 184—, windows <strong>of</strong> for IR cell, 219—, with Fe 2 O s , sintering <strong>of</strong>, 256magnetic field, effect on nucleus, 143magnetic moment, <strong>of</strong> electron, 210—, <strong>of</strong> nucleus, 209magnetic susceptibility, measurement <strong>of</strong> andadsorption, 207, 208—, study <strong>of</strong> radicals and, 308, 309—, study <strong>of</strong> solid state reactions and, 261magnifying manometer, 29maleic acid, cis-trans isomerisation, 72manganese, chemisorption on, 190—, preparation <strong>of</strong> films <strong>of</strong>, 183manganous halides, reaction + ZnS, ESRstudy, 261manganous ions, H a O exchange, NMR study, 149manganous oxide, chemisorption on, 190Mangeldorf's method for firstorder reactions,390, 391manometers, 12-14, 20, 29—, diaphragm, 99, 100—, quartz fibre, 102, 103, 249mass separation in molecular beam sampling,299mass spectrometers, and cool flamestudies, 281—, and gas titration, 320—, and study <strong>of</strong> adsorption on metal films,197—, and study <strong>of</strong> catalytic reactions, 239-245
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