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02929aam a2200421 i 4500 001 11E615B0CC9911EE8D42A99345ECA4DB 003 SILO 005 20240216010028 008 220614t20232023enka b 001 0 eng d 010 $a 2023393142 020 $a 1839167432 020 $a 9781839167430 035 $a (OCoLC)1338683315 040 $a UKMGB $b eng $e rda $c UKMGB $d OCLCF $d YDX $d CDX $d MUU $d BNG $d DLC $d WAU $d OCLCO $d OCLCL $d SILO 050 4 $a QD502.5 $b .Z57 2023 082 04 $a 547 $2 23 082 04 $a 547/.2 $2 23/eng/20221115 100 1 $a Zipse, Hendrik, $d 1962- $e author. $1 https://id.oclc.org/worldcat/entity/E39PBJjd8KpdW6FJ7RFH4dcVmd 245 10 $a Reactivity and mechanism in organic chemistry / $c by Hendrik Zipse. 250 $a 2nd edition. 264 1 $a London, UK : $b Royal Society of Chemistry, $c [2023] 300 $a viii, 195 pages : $b illustrations (some color) ; $c 24 cm 500 $a Previously published by Shaker Verlag, 2019. 504 $a Includes bibliographical references and index. 520 $a "Completely revised and updated, this 2nd Edition of Reactivity and Mechanism in Organic Chemistry is an ideal introduction to the quantitative description of organic reactivity for students in undergraduate and masters chemistry programmes. The book proceeds logically from qualitative molecular orbital theory as a tool for the description of bonding phenomena to combining this with thermochemical data to rationalise concepts such as molecular strain and hyperconjugation. Next, transition state theory, for examining organic reactivity phenomena, is introduced and its relation to energy surfaces and simple rate equations is discussed. On this basis more specific reactivity concepts commonly used in organic chemistry are explored such as the Bell-Evans-Polanyi principle, Marcus theory, HSAB principle, Hammett correlations, the Mayr-Patz equation, and FMO theory. How these reactivity models are applied is demonstrated for pericyclic reactions and selected rearrangement reactions involving transient intermediates such as radicals, diradicals, or carbocations, and for reactions involving classical electrophile/nucleophile combinations"--Page 4 of cover. 505 0 $a Structure and bonding in organic molecules -- Reactivity models in organic chemistry -- Pericyclic reactions. 650 0 $a Reactivity (Chemistry) 650 0 $a Chemistry, Organic. 650 0 $a Chemical processes. 650 6 $a ReÌactiviteÌ (Chimie) 650 6 $a Chimie organique. 650 6 $a ProceÌdeÌs chimiques. 650 7 $a organic chemistry. $2 aat 776 08 $i Online version: $a Zipse, Hendrik. $t Reactivity and mechanism in organic chemistry. $b Second edition. $d London, UK : Royal Society of Chemistry, [2023] $z 9781837670970 $w (OCoLC)1360436194 941 $a 1 952 $l UNUX074 $d 20240216010157.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=11E615B0CC9911EE8D42A99345ECA4DB 994 $a Z0 $b NIUInitiate Another SILO Locator Search