Quarterly Journal of the Chemical Society of London, Volume 7 |
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Page 1084
... absorption isotherm for every foam sample . However , it has been thought useful to include values of the maximum measured absorption capacities in Table 2 . These values will probably be exceeded in future work , but they indicate the ...
... absorption isotherm for every foam sample . However , it has been thought useful to include values of the maximum measured absorption capacities in Table 2 . These values will probably be exceeded in future work , but they indicate the ...
Page 1250
... absorption is the same as that of the original compound above 300 nm . The reaction taking 20 μsec . to complete is followed by a slower change which is complete in about 100 msec . [ Figure 7 , inset ( b ) ] during which the peak ...
... absorption is the same as that of the original compound above 300 nm . The reaction taking 20 μsec . to complete is followed by a slower change which is complete in about 100 msec . [ Figure 7 , inset ( b ) ] during which the peak ...
Page 2131
... Absorption bands Solvent A Ba D F C , H11 ' 1808 ( 10 ) 1837 1964 ( 30 ) 2006 ( 15 ) 1798 ( 10 ) CS3 1796 ( 10 ) ... absorption bands due to both the high- and low - temperature forms are solvent dependent although virtually independent of ...
... Absorption bands Solvent A Ba D F C , H11 ' 1808 ( 10 ) 1837 1964 ( 30 ) 2006 ( 15 ) 1798 ( 10 ) CS3 1796 ( 10 ) ... absorption bands due to both the high- and low - temperature forms are solvent dependent although virtually independent of ...
Contents
Inorganic physical and theoretical chemistry | 1001 |
J ROBINSON and C H L KENNARD | 1008 |
Nearestneighbour model for transfer of electronic excitation energy | 1016 |
Copyright | |
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absorption acid Acta adducts Amer anion aqueous assigned atoms band benzene bond calculated cancrinite carbon cation Chem chemical chemical shifts Chemistry chloride cm.¹ co-ordination cobalt(II complex compounds concentration configuration crystals density effect electron energy enthalpy equation equilibrium ethanol experimental Figure fluorine formation frequency H₂O hydrogen i.r. spectrum increase Inorg intensity interaction iron(II k₁ ligand linear magnetic measured metal methaemoglobins method methyl mixture modes mole mole-¹ molecular molecule n.m.r. spectra niobium nitrogen Nujol observed obtained orbitals oxidation oxygen parameters peak perchlorate perchloric acid phenyl phosphine phosphorus Phys potassium prepared present proton pyridine radical Raman rate constant reaction resonance ring room temperature salt sample shift shown sodalite sodium solid solution solvent species spectra structure studied sulphur symmetry Table thiocyanate tion trans tributyl phosphate triphenylphosphine values vanadium(IV vibrations X-ray zeolite