Chemical Shifts and Coupling Constants for Phosphorus-31: by R. R. Gupta, M. D. Lechner, V. Gupta (eds.)

By R. R. Gupta, M. D. Lechner, V. Gupta (eds.)

Nuclear Magnetic Resonance (NMR) relies at the indisputable fact that yes nuclei convey a magnetic second, orient through a magnetic box, and soak up attribute frequencies within the radiofrequency a part of the spectrum. The spectral traces of the nuclei are hugely motivated through the chemical surroundings i.e. the constitution and interplay of the molecules. NMR is now the best method and a strong software for the research of the constitution and interplay of molecules. the current Landolt-Börnstein vol.III/35 "Nuclear Magnetic Resonance (NMR) info" is consequently of significant curiosity to all scientists and engineers who intend to exploit NMR to check the constitution and the binding of molecules. Vol. III/40H is split into 3 subvolumes, them all describing NMR-data approximately 31P.

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1007/978-3-642-41599-9_37 © Springer 2014 36 Chemical Shifts and Coupling Constants for C26H22F3O9PS 1 36 Chemical Shifts and Coupling Constants for C26H22F3O9PS Data extract from Landolt-Börnstein III/40 “Nuclear Magnetic Resonance Data”, Subvolume H “Chemical Shifts and Coupling Constants for Phosphorus-31”, Part 3 Table for P chemical shift P [ppm] and coupling constant nJ [Hz], downfield from 85% H3PO4. All measurements refer to room temperature if not stated otherwise. Structure: O P OC6H5 OC6H5 O C HC H C2H5O2C OH O CF3 O S Solvent  31P [ppm] / nJ [Hz] Ref.

1007/978-3-642-41599-9_34 © Springer 2014 33 Chemical Shifts and Coupling Constants for C26H22ClN4PS3 1 33 Chemical Shifts and Coupling Constants for C26H22ClN4PS3 Data extract from Landolt-Börnstein III/40 “Nuclear Magnetic Resonance Data”, Subvolume H “Chemical Shifts and Coupling Constants for Phosphorus-31”, Part 3 Table for P chemical shift P [ppm] and coupling constant nJ [Hz], downfield from 85% H3PO4. All measurements refer to room temperature if not stated otherwise. Structure: H2C N N N Cl S N P S S CH2 Solvent  31P [ppm] / nJ [Hz] Ref.

Elem. 183 (2008) 2476. 1007/978-3-642-41599-9_20 © Springer 2014 19 Chemical Shifts and Coupling Constants for C26H20Cl2N12O18P2Pd2S14 1 19 Chemical Shifts and Coupling Constants for C26H20Cl2N12O18P2Pd2S14 Data extract from Landolt-Börnstein III/40 “Nuclear Magnetic Resonance Data”, Subvolume H “Chemical Shifts and Coupling Constants for Phosphorus-31”, Part 3 Table for P chemical shift P [ppm] and coupling constant nJ [Hz], downfield from 85% H3PO4. All measurements refer to room temperature if not stated otherwise.

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