@inbook{f9f4e811a5a74e77866f7df109f46b0c,
title = "Phillips Cr/silica catalyst for ethylene polymerization",
abstract = "The Phillips Cr/silica catalyst, discovered by Hogan and Banks at the Phillips Petroleum Company in the early 1950s, is one of the most important industrial catalysts for polyethylene production. In contrast to its great commercial success during the past half-century, academic progress regarding a basic understanding of the nature of the active sites and polymerization mechanisms is lagging far behind. During the last decade, increasing research efforts have been performed on the Phillips catalyst through various approaches, including spectroscopic methods, polymerization kinetics, heterogeneous model catalysts, homogeneous model catalysts, and molecular modeling. Much deeper mechanistic understanding, together with successive catalyst innovations through modifications of the Phillips catalyst, has been achieved.",
keywords = "Ethylene polymerization mechanisms, Heterogeneous model catalysts, Homogeneous model catalysts, Molecular modeling, Phillips Cr/silica catalyst, Polyethylene, Polymerization kinetics",
author = "Ruihua Cheng and Zhen Liu and Lei Zhong and Xuelian He and Pengyuan Qiu and Minoru Terano and Eisen, {Moris S.} and Scott, {Susannah L.} and Boping Liu",
note = "Copyright: Copyright 2018 Elsevier B.V., All rights reserved.",
year = "2013",
doi = "10.1007/12_2013_222",
language = "英语",
isbn = "9783642408076",
series = "Advances in Polymer Science",
publisher = "Springer New York LLC",
pages = "135--202",
booktitle = "Polyolefins",
}