P
Peter S. White
Researcher at University of North Carolina at Chapel Hill
Publications - 641
Citations - 36290
Peter S. White is an academic researcher from University of North Carolina at Chapel Hill. The author has contributed to research in topics: Crystal structure & Ligand. The author has an hindex of 72, co-authored 637 publications receiving 34509 citations. Previous affiliations of Peter S. White include National Park Service & University of Chicago.
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Journal Article
Patterns of European wild boar rooting in the Western Great Smoky Mountains.
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Preparations and crystal structures of Se2I4(AsF6)2.SO2 and Se2I4(Sb2F11)2 and electronic structure of the eclipsed diselenium tetraiodide dication, containing two SeI2 radical cations joined via a .pi.*-.pi.* bond and a delocalized 4p.pi.-5p.pi. bond. Implications for bonding in S2O42-, Se82+, and S82+
TL;DR: In this article, the 77 Se NMR spectra (−70°C) of the salts in SO 2 solution indicated the presence of Se 4 2+, SeI 3 +.
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The preparation, characterization in solution of the 7π radical 1,2,4-triseleno-3,5-diazolylium and the 6π(1,2,4-triseleno-3,5-diazolium)2+ cations, and the X-ray crystal structures of (SeNSeNSe)2(AsF6)2 and SeNSeNSe(AsF6)2 containing the first stable binary selenium–nitrogen species
TL;DR: In this article, the first stable binary selenium-nitrogen species, which were prepared by the reaction of stoicheiometric quantities of stochastic quantities of Se4(AsF6)2(n = 2) or AsF5(n= 1 and 2) with Se4N4 in liquid SO2, and their structures determined by X-ray crystallography.
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Reactions of H(3)Al.NMe(3) with E(SiMe(3))(3) (E = P, As). Structural Characterization of the Trimer [H(2)AlP(SiMe(3))(2)](3) and Base-Stabilized Adduct [H(2)AlAs(SiMe(3))(2)].NMe(3) and Their Thermal Decomposition toward Nanocrystalline AlP and AlAs, Respectively.
TL;DR: Under applied pyrolysis conditions for 1 and 2, the target elimination-condensation pathway via dehydrosilylation was accompanied by other decomposition side reactions and retention of some contaminant residues.
Journal Article
The species-area relationship of the southern Appalachian high peaks: vascular plant richness and rare plant distributions.
TL;DR: In the southern Appalachians, a total vascular flora of 342 species has been documented for these areas, with species richness on the separate areas positively correlated with size of the area, number of peaks, maximum elevation, and number of community types present as discussed by the authors.