第 1 期                     王桂霞，等:  过渡金属配合物催化的烯烃自由基反应进展                                     ·33·


            [18]  KOJI K, TERUAKI M. Iron (Ⅲ) complex catalyzed nitrosation of   of electronically unbiased terminal alkenes[J]. Angewandte Chemie
                 terminal  and 1,  2-disubstituted olefins with butyl nitrite and   International Edition, 2019, 58(26): 8872-8876.
                 phenylsilane[J]. Chemistry Letters, 1992, 21(7): 1137-1140.     [40]  CHEN Q Y, WU S W. Methyl fluorosulphonyldifluoroacetate a new
            [19]  ZHENG J, WANG D H,  CUI S L,  et al. Fe-catalyzed reductive   trifluoromethylating agent[J]. Journal of the Chemical Society,
                 coupling of unactivated alkenes with  β nitroalkenes[J]. Organic   Chemical Communications, 1989, 11: 705-706.
                 Letters, 2015, 17(18): 4572-4575.             [41]  KAWARMURA S, EGAMI H, SODEOKA M. Aminotrifluoro-
            [20]  SHEN Y Y, QI J F, CUI S L, et al. Fe-catalyzed hydroalkylation of   methylation of olefins via cyclic amine formation: Mechanistic study
                 olefins with para-quinone methides[J]. Organic Letters, 2016, 18(11):   and application to  synthesis of  trifluoromethylated pyrrolidines[J].
                 2722-2725.                                        Journal of the American Chemical Society, 2015, 137(14): 4865-
            [21]  QI J F, ZHENG J, CUI S L, et al. Fe (Ⅲ)-catalyzed hydroallylation   4873.
                 of unactivated alkenes with morita-baylis-hillman adducts[J]. Organic   [42]  ZHANG L, WANG F, CHEN P, et al. Copper-catalyzed intermolecular
                 Letters, 2018, 20(5): 1355-1358.                  trifluoromethylthiocyanation of alkenes: Convenient access to CF 3-
            [22]  YANG L, JI W W, LIN E,  et al. Synthesis of alkylated   containing alkyl thiocyanates[J]. Organic Letters, 2015, 17(10):
                 monofluoroalkenes via Fe-catalyzed defluorinative cross coupling of   2438-2441.
                 donor alkenes with gemdifluoroalkenes[J]. Organic Letters, 2018,   [43]  ZHENG J, DENG Z Y, ZHANG Y, et al. Copper-catalyzed divergent
                 20(7): 1924-1927.                                 trifluoromethylation/cyclization of unactivated alkenes[J]. Advanced
            [23]  XIE Y T, SUN  P W, LI Y X,  et al. Ligand-promoted iron   Synthesis & Catalysis, 2016, 358(5): 746-751.
                 (Ⅲ)-catalyzed hydrofluorination of alkenes[J]. Angewandte Chemie   [44]  LIU Z C, BAI Y H, ZHANG J,  et al. Copper-catalyzed
                 International Edition, 2019, 58(21): 7097-7101.     acyltrifluoromethylation  of alkenes:  Rapid access to trifluoroethyl
            [24]  LO J L  C, GUI J  H,  YABE  Y,  et al. Functionalized olefin cross-   indanones and related compounds[J]. Chemical  Communications,
                 coupling to construct carbon-carbon bonds[J]. Nature, 2014, 516(7531):   2017, 53(48): 6440-6443.
                 343-348.                                      [45]  WU L Q, WANG  F, WANG  X L,  et al. Asymmetric Cu-catalyzed
            [25]  LKEDA Y, NAKAMURA T, YORIMITSU H, et al. Cobalt-catalyzed   intermolecular trifluoromethylarylation of styrenes: Enantioselective
                 heck-type reaction  of alkyl  halides with styrenes[J]. Journal of the   arylation of benzylic radicals[J]. Journal of the American Chemical
                 American Chemical Society, 2002, 124(23): 6514-6515.     Society, 2017, 139(8): 2904-2907.
            [26]  SHIGEHISA H. Functional group tolerant markovnikov-selective   [46]  HAN W J, WANG Y R,  ZHANG J W,  et al. Cu-catalyzed
                 hydrofunctionalization of unactivated olefins using a cobalt complex   oxyalkynylation and aminoalkynylation  of  unactivated alkenes:
                 as catalyst[J]. Synlett, 2015, 26(18): 2479-2484.     Synthesis of alkynyl-featured isoxazolines and cyclic nitrones[J].
            [27]  NICEWICZ D A, HAMILTON D S. Organic photoredox catalysis as   Organic Letters, 2018, 20(10): 2960-2963.
                 a general strategy for anti-markovnikov alkene hydrofunctionalization[J].   [47]  ZHANG Z Z,  ZHU L, LI  C  Z,  et al. Copper-catalyzed
                 Synlett, 2014, 25(9): 1191-1196.                  carbotrifluoromethylation of unactivated alkenes driven by
            [28]  ZHANG H Y, GE C,  ZHAO J  Q,  et al. Cobalt-catalyzed   trifluoromethylation of alkyl radicals[J]. Chinese Journal Chemistry,
                 trifluoromethylation-peroxidation of unactivated alkenes with sodium   2019, 37(5): 452-456.
                 trifluoromethanesulfinate and hydroperoxide[J]. Organic Letters,   [48]  OH H, PARK A, JEONG K S,  et al. Copper-catalyzed 1,
                 2017, 19(19): 5260-5263.                          2-bistrifluoromethylation of terminal alkenes[J]. Advanced Synthesis
            [29]  TOUNEY  E E, FOY N J, PRONIN S V. Catalytic radical-polar   & Catalysis, 2019, 361(9): 2136-2140.
                 crossover reactions of allylic  alcohols[J]. Journal of the  American   [49]  CHEMLER S R, KARYAKARTE S D, KHODER Z M.
                 Chemical Society, 2018, 140(49): 16982-16987.     Stereoselective  and  regioselective synthesis of heterocycles  via
            [30]  ZHOU X L, YANG F, SUN H L, et al. Cobalt-catalyzed intermolecular   copper-catalyzed additions  of  amine  derivatives and alcohols  to
                 hydrofunctionalization  of alkenes: Evidence  for a  bimetallic   alkenes[J]. The Journal of Organic  Chemistry,  2017,  82(21):
                 pathway[J]. Journal of the American Chemical Society, 2019,   11311-11325.
                 141(18): 7250-7255.                           [50]  QUEBATTE L, THOMMES K, SEVERIN K. Highly efficient atom
            [31]  SHAO X X, HONG X,  LU L,  et al. Cobalt-catalyzed hydro-   transfer radical addition reactions with a Ru  Ⅲ complex as a
                 difluoromethylthiolation/hydro-trifluoromethylthiolation of unactivated   catalyst precursor[J]. Journal of the American Chemical Society,
                 alkenes[J]. Tetrahedron, 2019, 75(31): 4156-4166.     2006, 128(23): 7440-7441.
            [32]  ZHANG L, ZUO Z Q, LENG X B, et al. A cobalt-catalyzed alkene   [51]  MUÑOZ-MOLINA J M, PÉREZ P J. Ruthenium-catalyzed heck-type
                 hydroboration with pinacolborane[J]. Angewandte Chemie International   alkenylation of alkyl bromides[J]. The Journal of Organic Chemistry,
                 Edition, 2014, 53(10): 2696-2700.                 2019, 84(12): 8289-8296.
            [33]  SIM T B, CHOI J, JOUNG M J, et al. Alkenes using nickel boride   [52]  WANG X G, LI Y K, LIU H C, et al. Three-component ruthenium-
                 (cat. )-borohydride exchange resin in  methanol[J].  The  Journal of   catalyzed  direct meta-selective C—H activation of arenes: A new
                 Organic Chemistry, 1997, 62(8): 2357-2361.        approach to the alkylarylation of alkenes[J]. Journal of the American
            [34]  LI G, WANG T,  FEI F,  et al. Nickel-catalyzed decarboxylative   Chemical Society, 2019, 141(35): 13914-13922.
                 difluoroalkylation of α, β-unsaturated barboxylic acids[J]. Angewandte   [53]  KHARASCH M S, JENSEN E V, URRY W H. Addition of carbon
                 Chemie International Edition, 2016, 55(10): 3491-3495.     tetrachloride and chloroform to olefins[J]. Science, 1945, 102(2640):
            [35]  GARCIA-DOMINGUEZ A, LI Z D, NEVADO C. Nickel-catalyzed   128.
                 reductive dicarbofunctionalization of alkenes[J]. Journal of the   [54]  SMITH J R, COLLINS B S L, HESSE M J, et al. Enantioselective
                 American Chemical Society, 2017, 139(20): 6835-6838.     Rhodium(Ⅲ)-catalyzed  markovnikov hydroboration of unactivated
            [36]  JIN W W, ZHOU Y L,  ZHAO  Y,  et al. Nickel-catalyzed remote   terminal alkenes[J]. Journal of the American Chemical Society, 2017,
                 arylation of alkenyl aldehydes initiated by radical  alkylation with   139(27): 9148-9151.
                 tertiary α-carbonyl alkyl bromides[J]. Organic Letters, 2018, 20(5):   [55]  CRESSWELL A J, EEY S T, DENMARK S E,  et al. Catalytic,
                 1435-1438.                                        stereoselective dihalogenation of alkenes: Challenges and opportunities[J].
            [37]  CHU L  L, ZHAO X, TU H  Y,  et al. Intermolecular selective   Angewandte Chemie International Edition, 2015, 54(52): 15642-
                 carboacylation of  alkenes  via nickel-catalyzed reductive radical   15682.
                 relay[J]. Nature Communications, 2018, 9(3488): 1-6.     [56]  NGUYEN J D, TUCKER J W, KONIECYNSKA M  D,  et al.
            [38]  WANG  W, LI Y  Y, LI Z Q,  et al. Migratory arylboration of   Intermolecular atom transfer radical addition to olefins mediated by
                 unactivated alkenes enabled by nickel catalysis[J]. Angewandte   oxidative quenching of photoredox  catalysts[J]. Journal of the
                 Chemie International Edition, 2019, 58(14): 4612-4616.     American Chemical Society, 2011, 133(12): 4160-4613.
            [39]  LI Y Y, PANG H L, WU D, et al. Nickel-catalyzed 1, 1-alkylboration           （下转第 43 页）