Considering the chemical energy requirements of the tri-n-propylamine co-reactant pathways for the judicious design of new electrogenerated chemiluminescence detection systems
Version 2 2024-06-04, 04:57
Version 1 2016-01-07, 13:44
journal contribution
posted on 2024-06-04, 04:57 authored by E Kerr, Egan DoevenEgan Doeven, DJD Wilson, CF Hogan, Paul FrancisPaul FrancisA simple graphical approach to characterise the energetically feasible electrogenerated chemiluminescence (ECL) reaction pathways with tri-n-propylamine is discussed.
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Journal
AnalystVolume
141Pagination
62-69Location
EnglandPublisher DOI
Open access
- Yes
Link to full text
ISSN
0003-2654eISSN
1364-5528Language
EnglishPublication classification
C1 Refereed article in a scholarly journalCopyright notice
2016, RCSIssue
1Publisher
ROYAL SOC CHEMISTRYUsage metrics
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Keywords
Science & TechnologyPhysical SciencesChemistry, AnalyticalChemistrySELECTIVE EXCITATIONIRIDIUM COMPLEXESACETONITRILE SOLUTIONSELECTROCHEMILUMINESCENCEGREENECLOXIDATIONTRIS(2-PHENYLPYRIDINE)IRIDIUM(III)POTENTIALSMECHANISM030602 Chemical Thermodynamics and Energetics030604 Electrochemistry970103 Expanding Knowledge in the Chemical SciencesCentre for Chemistry and BiotechnologySchool of Life and Environmental SciencesFaculty of Science Engineering and Built EnvironmentCentre for Regional and Rural Futures3406 Physical chemistry3401 Analytical chemistry3499 Other chemical sciences
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