Thermodynamic properties of ammonium haloplatinates: II. Heat capacity and thermodynamic functions of deuterated ammonium hexachloroplatinate (ND4)2PtCl6 at temperatures from 5 K to 350 K
dc.contributor.author | Weir, Ron D. | en_US |
dc.contributor.author | Westrum, Jr. , Edgar F. | en_US |
dc.date.accessioned | 2006-04-10T14:40:41Z | |
dc.date.available | 2006-04-10T14:40:41Z | |
dc.date.issued | 1991-07 | en_US |
dc.identifier.citation | Weir, Ron D., Westrum, Jr., Edgar F. (1991/07)."Thermodynamic properties of ammonium haloplatinates: II. Heat capacity and thermodynamic functions of deuterated ammonium hexachloroplatinate (ND4)2PtCl6 at temperatures from 5 K to 350 K." The Journal of Chemical Thermodynamics 23(7): 653-665. <http://hdl.handle.net/2027.42/29263> | en_US |
dc.identifier.uri | http://www.sciencedirect.com/science/article/B6WHM-4H3BC7X-6/2/5e6bbd1c88d4f756aa5c0b0e96c5ae4f | en_US |
dc.identifier.uri | https://hdl.handle.net/2027.42/29263 | |
dc.description.abstract | The heat capacity of deuterated ammonium hexachloroplatinate (ND4)2PtCl6 was measured at temperatures from 5 K to 350 K by adiabatic calorimetry. One λ-shaped anomaly, absent in the undeuterated salt, was found in the curve for heat capacity against temperature. This λ-shaped transition reaches its maximum Cp,m [approximate] 59.3·R at (27.2±0.05) K with ΔtrsSom = (1.216±0.004)·R, characteristic of an order-disorder transition. Smoothed values of the standard thermodynamic quantities for pure (ND4)2PtCl6 are tabulated at temperatures up to 350 K. | en_US |
dc.format.extent | 672647 bytes | |
dc.format.extent | 3118 bytes | |
dc.format.mimetype | application/pdf | |
dc.format.mimetype | text/plain | |
dc.language.iso | en_US | |
dc.publisher | Elsevier | en_US |
dc.title | Thermodynamic properties of ammonium haloplatinates: II. Heat capacity and thermodynamic functions of deuterated ammonium hexachloroplatinate (ND4)2PtCl6 at temperatures from 5 K to 350 K | en_US |
dc.type | Article | en_US |
dc.rights.robots | IndexNoFollow | en_US |
dc.subject.hlbsecondlevel | Materials Science and Engineering | en_US |
dc.subject.hlbsecondlevel | Chemistry | en_US |
dc.subject.hlbsecondlevel | Chemical Engineering | en_US |
dc.subject.hlbsecondlevel | Biological Chemistry | en_US |
dc.subject.hlbtoplevel | Engineering | en_US |
dc.subject.hlbtoplevel | Science | en_US |
dc.subject.hlbtoplevel | Health Sciences | en_US |
dc.description.peerreviewed | Peer Reviewed | en_US |
dc.contributor.affiliationum | Department of Chemistry and Chemical Engineering, Royal Military College of Canada, Kingston, Ontario K7K 5L0, Canada;Department of Chemistry, University of Michigan, Ann Arbor, MI 48109-1055, U.S.A. | en_US |
dc.contributor.affiliationum | Department of Chemistry and Chemical Engineering, Royal Military College of Canada, Kingston, Ontario K7K 5L0, Canada;Department of Chemistry, University of Michigan, Ann Arbor, MI 48109-1055, U.S.A. | en_US |
dc.description.bitstreamurl | http://deepblue.lib.umich.edu/bitstream/2027.42/29263/1/0000321.pdf | en_US |
dc.identifier.doi | http://dx.doi.org/10.1016/S0021-9614(05)80203-4 | en_US |
dc.identifier.source | The Journal of Chemical Thermodynamics | en_US |
dc.owningcollname | Interdisciplinary and Peer-Reviewed |
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