19F Nuclear Spin–Rotation Constant of Yttrium Monofluoride

## Abstract In 2‐trifluoromethylphenyldifluorophosphine the proximate couplings ^4^__J__(^19^F^31^P) and ^5^__J__(^19^F^19^F) are + 68.3 and + 8.3 Hz, respectively. ^1^__J__(^13^C^31^P) is −57.0 Hz, ^2^__J__(^13^C‐1, ^10^F) is + 9.9 Hz and ^2^__J__(^13^C‐6, ^13^C‐6, ^31^P) is + 10.1 Hz. The trifluo

High-resolution Fourier transform microwave spectra of the unstable species ClPO 2 have been measured, and the P and Cl spin-rotation coupling constants have been determined from the resolved hyperfine splittings. These constants have been used to derive the absolute nuclear shielding parameters for

The variation-perturbation method, employing an explicitly correlated basis set in the form of Gaussian functions with exponential correlation factors, has been used to calculate the paramagnelic component of the nuclear magnetic shielding and the electronic contribution to the spin-rotation constan

## Abstract The details of two‐dimensional ^13^C^1^H correlated spectra have provided information about the relative signs of __J__(C, F) and __J__(F, H) for several molecules in which C, F and H are mutually coupled. Unlike signs are found for __J__(C, F) and __J__(F, H) when the coupling pathway