The thionophosphate-thiolophosphate photoisomerization proceeds predominantly through a non-chain radical pathway. Synthetically viable benzylation of tetrahydrofuran, propan-2-ol and olefins

The photoirradiation of thionophosphates, ROP(S)(OEt)2, derived from benzyl and vinylogously benzyl alcohols in CH3CN, with a Hanovia medium-pressure mercury lamp in a quartz vessel leads to the formation of the corresponding thiolophosphates, RSP(O)(OEt)2, through a non-chain radical pathway. This behavior of thionophosphates is unlike that of the related phosphates, which react through ionic dissociation-recombination processes. When the irradiation is conducted in solvents such as PriOH, THF and toluene, benzylation of these solvents takes place in synthetically respectable yields. Irradiation of thionophosphates in CH3CN leads to a convenient allylic benzylation of olefins

A Modified Cross-Polarization Magic Angle Spinning \u3csup\u3e13\u3c/sup\u3eC NMR Procedure for the Study of Humic Materials

A new approach to the use of high-field instruments for cross-polarization (CP) magic angle spinning (MAS) 13C NMR for analysis of humic materials is described. This technique consists of using a high sample spinning rate and a ramp CP pulse sequence, which, among other advantages, addresses chemical shift anisotropy effects. The theoretical aspects of high spinning rates on line broadening for nonrigid solids are reviewed. Also, the ramp CP pulse sequence and its implications for humic materials are discussed. It is shown mat the highest resolution and most informative spectra can be obtained via a high-field instrument if the sample is spun at a rate higher than 0.25 of the anisotropy of the chemical shift of the aromatic moieties and a ramp CP pulse sequence is used. This study raises concerns that previous methods may have underestimated the amount of aromatic carbons in humic materials. Because of the similarities between humic materials and coals, mis work may also have implications in the CP-MAS 13C NMR approach to coals