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Yankwich, Peter E., Haschemeyer, Rudy H. (1963) TEMPERATURE DEPENDENCE OF THE CARBON ISOTOPE EFFECT IN THE DECARBONYLATION OF LIQUID FORMIC ACID. The Journal of Physical Chemistry, 67 (3). 694-696 doi:10.1021/j100797a037

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Reference TypeJournal (article/letter/editorial)
TitleTEMPERATURE DEPENDENCE OF THE CARBON ISOTOPE EFFECT IN THE DECARBONYLATION OF LIQUID FORMIC ACID
JournalThe Journal of Physical Chemistry
AuthorsYankwich, Peter E.Author
Haschemeyer, Rudy H.Author
Year1963 (March)Volume67
Issue3
PublisherAmerican Chemical Society (ACS)
DOIdoi:10.1021/j100797a037Search in ResearchGate
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Mindat Ref. ID7963910Long-form Identifiermindat:1:5:7963910:3
GUID0
Full ReferenceYankwich, Peter E., Haschemeyer, Rudy H. (1963) TEMPERATURE DEPENDENCE OF THE CARBON ISOTOPE EFFECT IN THE DECARBONYLATION OF LIQUID FORMIC ACID. The Journal of Physical Chemistry, 67 (3). 694-696 doi:10.1021/j100797a037
Plain TextYankwich, Peter E., Haschemeyer, Rudy H. (1963) TEMPERATURE DEPENDENCE OF THE CARBON ISOTOPE EFFECT IN THE DECARBONYLATION OF LIQUID FORMIC ACID. The Journal of Physical Chemistry, 67 (3). 694-696 doi:10.1021/j100797a037
In(1963, March) The Journal of Physical Chemistry Vol. 67 (3) American Chemical Society (ACS)

See Also

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Bigeleisen, Jacob., Haschemeyer, Rudy H., Wolfsberg, Max., Yankwich, Peter E. (1962) Temperature Dependence of the Carbon Isotope Effect in the Dehydration of Formic Acid by Concentrated Sulfuric Acid. Journal Of The American Chemical Society, 84 (10) 1813-1815 doi:10.1021/ja00869a008
Yankwich, Peter E., Steigelmann, Edward F. (1963) RATE DEPENDENCE OF THE STOICHIOMETRY OF FORMIC ACID VAPOR PHOTOLYSIS. The Journal of Physical Chemistry, 67 (4). 757-762 doi:10.1021/j100798a009
Yankwich, Peter E., Veazie, Audrey E. (1958) Temperature Dependence of the Carbon Isotope Effect in the Acid Hydrolysis of Urea. Journal Of The American Chemical Society, 80 (8) 1835-1838 doi:10.1021/ja01541a017
Sims, Leslie B., Yankwich, Peter E. (1967) Carbon-13 kinetic isotope effect in the structural isomerization of cyclopropane. Temperature and pressure dependence. The Journal of Physical Chemistry, 71 (11). 3459-3463 doi:10.1021/j100870a017
Yankwich, Peter, Buddenbaum, Warren (1967) Anomalous Temperature Dependence of Kinetic Carbon Isotope Effects. The Journal of Physical Chemistry, 71 (5). 1185-1195 doi:10.1021/j100864a600
Barton, Donald, Yankwich, Peter E. (1967) Autocatalysis and deuterium isotope effects in the reaction of formic acid and nitrogen dioxide. The Journal of Physical Chemistry, 71 (11). 3455-3458 doi:10.1021/j100870a016
Lapidus, Gabriel, Barton, Donald, Yankwich, Peter E. (1966) Intramolecular Kinetic Carbon Isotope Effect in the Gas Phase Decomposition of Deuteriooxalic Acid. The Journal of Physical Chemistry, 70 (5). 1575-1578 doi:10.1021/j100877a038
Buddenbaum, Warren E., Koch, William G., Yankwich, Peter E. (1966) Carbon Isotope Effect in the Formation of Hydrogen Malonate Ion. The Journal of Physical Chemistry, 70 (3). 673-684 doi:10.1021/j100875a012
Lapidus, Gabriel, Barton, Donald, Yankwich, Peter E. (1966) Reversing Intramolecular Kinetic Carbon Isotope Effect in the Gas Phase Decomposition of Oxalic Acid. The Journal of Physical Chemistry, 70 (10). 3135-3139 doi:10.1021/j100882a020
Yankwich, Peter E., Promislow, Albert L. (1954) Intramolecular Carbon Isotope Effect in the Decarboxylation of Liquid Malonic Acid Near the Melting Point. Journal Of The American Chemical Society, 76 (18) 4648-4651 doi:10.1021/ja01647a050
Yankwich, Peter E., Weber, H. S. (1956) Intramolecular Carbon Isotope Effect in the Decarboxylation of the Mono-anion of Malonic Acid in Quinoline Solution. Journal Of The American Chemical Society, 78 (3) 564-567 doi:10.1021/ja01584a015
 
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