2012
DOI: 10.1080/10426507.2011.610848
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Spectral Assignment of Phenanthrene Derivatives Based on 6H-Dibenzo[C,E][1,2] Oxaphosphinine 6-Oxide by NMR and Quantum Chemical Calculations

Abstract: Organophosphorus compounds such as 6H-dibenzo[c,e][1,2]oxaphosphinine 6-oxide (DOPO, 1) and its derivatives are important and versatile compounds for a broad field H coupling patterns are discussed and compared with the derivatives possessing different chemical environments around the phosphorus atom. In addition, we compared our results with density functional theory calculations. Even though the prediction of NMR data of organophosphorus compounds via molecular modeling is limited, this study presents a meth… Show more

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Cited by 15 publications
(22 citation statements)
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“…More information cannot be extracted from solely proton‐based NMR experiments, hence further presumptions are required to resolve this ambiguity. The interpretation of 1 H chemical shifts may involve, for example, speculating on inductive effects of oxygen and phosphoryl substituents ; observing δ H trends in related structures; chemical shift prediction by suitable computer programs or analyzing the experimental long‐range phosphorus‐proton coupling constants ( n J P,H ) . The mentioned approaches are commonly applied for 1 H NMR assignment of organophosphorus compounds, but may occasionally lead to mistakes .…”
Section: Resultsmentioning
confidence: 99%
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“…More information cannot be extracted from solely proton‐based NMR experiments, hence further presumptions are required to resolve this ambiguity. The interpretation of 1 H chemical shifts may involve, for example, speculating on inductive effects of oxygen and phosphoryl substituents ; observing δ H trends in related structures; chemical shift prediction by suitable computer programs or analyzing the experimental long‐range phosphorus‐proton coupling constants ( n J P,H ) . The mentioned approaches are commonly applied for 1 H NMR assignment of organophosphorus compounds, but may occasionally lead to mistakes .…”
Section: Resultsmentioning
confidence: 99%
“…The interpretation of 1 H chemical shifts may involve, for example, speculating on inductive effects of oxygen and phosphoryl substituents ; observing δ H trends in related structures; chemical shift prediction by suitable computer programs or analyzing the experimental long‐range phosphorus‐proton coupling constants ( n J P,H ) . The mentioned approaches are commonly applied for 1 H NMR assignment of organophosphorus compounds, but may occasionally lead to mistakes . We thus followed a more general and robust strategy by turning our attention to the experimental 13 C chemical shifts and their one‐bond (HSQC) and multiple‐bond (HMBC) connectivities to protons .…”
Section: Resultsmentioning
confidence: 99%
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