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1、第四章第四章 亲电加成反应亲电加成反应1(1 1)亲电加成)亲电加成 ( (electrophilicelectrophilic addition) addition)(2 2)亲核加成)亲核加成 ( (nucleophilicnucleophilic addition) addition)(3 3)自由基加成)自由基加成 (radical addition)(radical addition)(4 4)环加成)环加成 ( (cycloadditioncycloaddition) )碳碳重键碳碳重键 (multiple bonds) (multiple bonds) 的加成反应的加成反应2一、
2、碳一、碳- -碳双键的亲电加成反应碳双键的亲电加成反应n n烯烃活泼的原因:烯烃活泼的原因: 电子受核束缚力小,电子受核束缚力小,容易极化。容易极化。31. 烯烃的亲电加成反应历程4Mechanism (1)involves prior dissociation of the electrophile and implies that a carbocation is generated that is free of the counterion Y- at its formation.(1 1) Prior dissociation of Prior dissociation of ele
3、ctrophileelectrophile and and formation of formation of carbocationcarbocation intermediate intermediate5(2 2) Formation of Formation of carbocationcarbocation ion pair from ion pair from alkenealkene and and electrophileelectrophile. .6Mechanism(2)also involves a carbocation intermediate, but it is
4、 generated in the presence of an anion and exists initially as an ion pair. Depending on the mutual reactivity of the two ions, they might or might not become free of one another before combining to give product.7(3 3) Formation a bridged carbonic Formation a bridged carbonic intermediate from inter
5、mediate from alkenealkene and and electrophileelectrophile. .8Mechanism (3) leads to a bridged intermediate that undergoes addition by a second step in which the ring is opened by a nucleophile. Mechanism (3)implies stereospecific anti addition.Mechanisms (1), (2)and (3) are all AdE2 reactions: they
6、 are bimolecular electrophilic additions.9(4 4) Concerted addition of Concerted addition of electrophileelectrophile and and nucleophilenucleophile in a in a termoleculartermolecular reaction reaction10Mechanism (4)is a process that has been observed for several electrophilic additions and implies c
7、oncerted transfer of the electrophilic and nucleophilic components of the reagent from two separate molecules. It is a termolecular electrophilic addition, AdE3, a mechanism that implies formation of a complex between one molecule of the reagent and the reactant and also is expected to result in ant
8、i addition. 11 碳正离子历程碳正离子历程v = k isopropeneHCl(2)双分子历程12生成结构稳定的碳正离子中间体生成结构稳定的碳正离子中间体n碳正离子中间体的AdE2历程的条件叔碳正离子中间体、苄基型碳正离子叔碳正离子中间体、苄基型碳正离子13通常不具有立体选择性通常不具有立体选择性14有时有重排产物出现有时有重排产物出现重排产物的出现可作为经碳正离子重排产物的出现可作为经碳正离子中间体历程的证据之一中间体历程的证据之一15 鎓型离子历程鎓型离子历程立体化学为立体化学为反式加成反式加成16“ “Bromine with two bonds and a positiv
9、e Bromine with two bonds and a positive charge? In a three-charge? In a three-memberedmembered ring? In 1937, ring? In 1937, two Columbia chemists proposed just such a two Columbia chemists proposed just such a species as an intermediate in the reaction of species as an intermediate in the reaction
10、of ethylene with bromine. They were right.”ethylene with bromine. They were right.”17n n溴鎓离子具有八隅体结构,碳正离子为溴鎓离子具有八隅体结构,碳正离子为六电子体,前者比后者稳定。六电子体,前者比后者稳定。Br2, I2, IN3, RSCl or ArSCl, Hg(OCOCH3)2亲电试剂的原子半径要足够大亲电试剂的原子半径要足够大思考:思考:为什么形成溴鎓离子而不是碳正离子?为什么形成溴鎓离子而不是碳正离子?哪些哪些亲电试剂与烯烃可形成鎓型离子中间体?亲电试剂与烯烃可形成鎓型离子中间体?18鎓离子存
11、在的直接证据?鎓离子存在的直接证据?BiadamantylideneBiadamantylidene bronomiumbronomium19(3 3)三分子历程()三分子历程(AdAdE E3 3)n 某些非共轭烯烃与HX加成按AdE3历程进行。n 立体化学通常为反式加成20complex21222. 2. 烯烃亲电加成反应的立体化学烯烃亲电加成反应的立体化学(1 1)反式加成()反式加成(AntiadditionAntiaddition)23n AdE2:涉及环状鎓离子的形成反 式 加 成24反式加成反式加成25反式加成反式加成26n AdE3:一分子烯烃和一分子烯烃与HX形成的络合物反应
12、。反式加成反式加成27(2 2)顺式加成()顺式加成(synadditionsynaddition)碳碳双键与苯基共轭的烯烃碳碳双键与苯基共轭的烯烃和和HXHX的加成反的加成反应主要给出顺式加成产物应主要给出顺式加成产物28Ion pairOwing to the greater stability of the Owing to the greater stability of the benzylicbenzylic carbocationscarbocations formed in these reactions, formed in these reactions, concerte
13、d attack by halide ion is not required concerted attack by halide ion is not required for for protonationprotonation. .29对比立体选择性对比立体选择性30顺式加成顺式加成p硼烷与烯烃的加成为硼烷与烯烃的加成为顺式加成顺式加成31(3)无立体选择性的加成32实例1:l l解释双键碳原子上解释双键碳原子上连有苯基的烯烃与溴连有苯基的烯烃与溴加加成时,顺式加成产物增多。如:溴与反成时,顺式加成产物增多。如:溴与反-1-1-苯苯基丙烯反应所得反、顺式加成产物之比为基丙烯反应所得反、顺
14、式加成产物之比为88:1288:12;当双键碳原子所连的苯基上有给电子;当双键碳原子所连的苯基上有给电子基团时,顺式加成产物的比例也明显升高。基团时,顺式加成产物的比例也明显升高。33反式反式加成加成 产物产物 (88%88%)顺式顺式加成加成 产物产物 (12%12%)34反式反式加成加成 产物产物 (63%63%)顺式顺式加成加成 产物产物 (37%37%)35l l某些芳烃与卤素加成,主要生成顺式加成某些芳烃与卤素加成,主要生成顺式加成产物。产物。(35%35%)(10%10%)实例2:36提示:37邻基参与 (注意) 当双键邻位有带未共用电子对的基团存当双键邻位有带未共用电子对的基团存
15、在时,该基团会对碳正离子中间体进行亲在时,该基团会对碳正离子中间体进行亲核进攻。核进攻。38例如:39对比:4041 某些某些五、六元环状内酯或环醚五、六元环状内酯或环醚的形成也和的形成也和邻基参与有关。邻基参与有关。42433. 3. 烯烃烯烃亲电加成反应的活性亲电加成反应的活性(1 1)烯烃结构对加成速率的影响)烯烃结构对加成速率的影响44结论:结论:Z Z为推电子基,使双键电子云密度增为推电子基,使双键电子云密度增 加;稳定碳正离子中间体,降低活化能加;稳定碳正离子中间体,降低活化能45结论:结论:Z Z为吸电子基,使双键电子云密度为吸电子基,使双键电子云密度降低;使碳正离子中间体更不稳
16、定,增加降低;使碳正离子中间体更不稳定,增加 活化能活化能46Z Z为强吸电子基时为强吸电子基时,烯烃不发生亲电加成,烯烃不发生亲电加成反应,反应,发生亲核加成反应!发生亲核加成反应!4748(2 2)亲电试剂)亲电试剂对加成速率的影响对加成速率的影响 对于特定烯烃,卤化氢的加成速率与酸性强弱一致。HI HBr HCl HF 对于特定烯烃,混合卤素的加成速率与其异裂难易程度相符ICl IBr I2494. 烯烃亲电加成反应的定向规律n 区域选择性影响因素:电子效应,空间效应。50(1 1)电子效应)电子效应51n“Markovnikov 规则”?n“围绕碳正离子的-CC单键旋转,当带正电荷碳原子的p轨道轴和-CH键的轨道轴在同一平面时,这两个轨道可发生部分重叠,使部分正电荷分散到甲基上,起稳定碳正离子的作用,这种现象称超共轭作用”。52n 对含强吸电子基团的烯烃与不对称亲电试剂的加成,从表面上看是反马氏规
