[1]TetrahedronLetters,1984,vol.25,p.3861-3864
[1]OrganicLetters,2019,vol.21,p.2514-2517
[2]TetrahedronLetters,2020,vol.61
[3]JournalofOrganometallicChemistry,2016,vol.822,p.165-172
[4]TetrahedronLetters,2008,vol.49,p.5961-5964
[5]CatalysisLetters,2021,vol.151,p.3030-3047
[6]OrganicLetters,2016,vol.18,p.6196-6199
[7]AppliedOrganometallicChemistry,2018,vol.32
[8]EuropeanJournalofOrganicChemistry,2022,vol.2022
[9]JournaloftheAmericanChemicalSociety,2004,vol.126,p.4540-4542
[10]TetrahedronLetters,2010,vol.51,p.917-920
[11]ChemicalCommunications,2015,vol.51,p.17253-17256
[12]EuropeanJournalofOrganicChemistry,2010,p.4368-4371
[13]EuropeanJournalofOrganicChemistry,2010,p.5560-5562
[14]JournalofOrganometallicChemistry,2013,vol.740,p.78-82
[15]ChemSusChem,2014,vol.7,p.2230-2239
[16]JournalofOrganometallicChemistry,2013,vol.743,p.63-69
[17]AdvancedSynthesisandCatalysis,2013,vol.355,p.3648-3660
[18]OrganicandBiomolecularChemistry,2018,vol.16,p.2748-2752
[19]Chemistry-AnAsianJournal,2017,vol.12,p.2221-2230
[20]AppliedOrganometallicChemistry,2018,vol.32
[21]JournalofOrganometallicChemistry,2021,vol.935
[22]TetrahedronLetters,2009,vol.50,p.204-207
[23]GreenChemistry,2009,vol.11,p.1821-1825
[24]AustralianJournalofChemistry,2015,vol.68,p.1614-1617
[25]Synthesis,2012,vol.44,p.1507-1510
[26]Catalysisscienceandtechnology,2016,vol.6,p.4005-4019
[27]Tetrahedron,2004,vol.60,p.81-92
[28]JournalofChemicalResearch,2009,p.478-481
[29]AdvancedSynthesisandCatalysis,2012,vol.354,p.1542-1550
[30]AppliedOrganometallicChemistry,2015,vol.29,p.674-677
[31]EuropeanJournalofOrganicChemistry,2020,vol.2020,p.234-240
[32]EuropeanJournalofOrganicChemistry,2010,p.6067-6071
[33]Synlett,2011,p.702-706
[34]JournaloftheAmericanChemicalSociety,2005,vol.127,p.9332-9333
[35]OrganicLetters,2006,vol.8,p.717-720
[36]ChemicalCommunications,2014,vol.50,p.2261-2264
[37]AngewandteChemie-InternationalEdition,2018,vol.57,p.6858-6862 Angew.Chem.,2018,vol.130,p.6974-6978,5
[38]JournalofOrganicChemistry,2005,vol.70,p.391-393
[39]AdvancedSynthesisandCatalysis,2011,vol.353,p.125-132
[40]Synlett,2014,vol.25,p.443-447
[41]Patent:CN104710481,2017,B.Locationinpatent:Paragraph0042-0044;0058;0059
[42]Chemistry-AnAsianJournal,2020,vol.15,p.892-898
[43]JournalofChemicalSciences,2011,vol.123,p.937-942
[44]AppliedOrganometallicChemistry,2019,vol.33
[45]JournalofOrganometallicChemistry,2021,vol.937
[46]InorganicaChimicaActa,2017,vol.466,p.122-129
[47]OrganicLetters,2021,vol.23,p.4023-4028
[48]RSCAdvances,2016,vol.6,p.109296-109300
[49]Macromolecules,2004,vol.37,p.7867-7878
[50]BulletinoftheChemicalSocietyofJapan,2022,vol.95,p.595-601
[51]TransitionMetalChemistry,2017,vol.42,p.347-356
[52]InorganicaChimicaActa,2017,vol.455,p.183-189
[53]JournalofOrganometallicChemistry,2014,vol.769,p.80-93
[54]ACSCatalysis,2016,vol.6,p.3771-3783
[55]OrganicLetters,2017,vol.19,p.5720-5723
[56]TetrahedronLetters,2013,vol.54,p.6319-6323
[57]JournalofOrganicChemistry,2013,vol.78,p.12703-12709
[58]JournalofOrganometallicChemistry,2018,vol.860,p.98-105
[59]CatalysisLetters,2018,vol.148,p.3165-3177
[60]ACSCatalysis,2019,vol.9,p.11640-11646
[61]JournalofMaterialsChemistryA,2014,vol.2,p.7944-7952
[62]Patent:US2009/140644,2009,A1
[63]Patent:KR101564230,2015,B1.Locationinpatent:Paragraph0205;0207;0209;0210-0212
[64]OrganicProcessResearchandDevelopment,2016,vol.20,p.2124-2129
[65]Patent:US2009/140641,2009,A1.Locationinpatent:Page/Pagecolumn70
[66]Patent:EP2065378,2009,A1.Locationinpatent:Page/Pagecolumn136
[67]Patent:CN106242976,2016,A.Locationinpatent:Paragraph0048;0049;0050;0051;0056;0057;0058;0059
[68]BeilsteinJournalofOrganicChemistry,2019,vol.15,p.2907-2913
[69]JournaloftheAmericanChemicalSociety,2011,vol.133,p.20962-20969
[70]TetrahedronLetters,2016,vol.57,p.1706-1710
[71]JournaloftheAmericanChemicalSociety,1991,vol.113,p.8548-8549
[72]Macromolecules,2005,vol.38,p.2704-2709
[73]Chemistry-AEuropeanJournal,2008,vol.14,p.6646-6655
[74]DaltonTransactions,2009,p.10581-10591
[75]TetrahedronLetters,2010,vol.51,p.5653-5656
[76]OrganicLetters,2011,vol.13,p.1556-1559
[77]HelveticaChimicaActa,2011,vol.94,p.966-976
[78]AppliedCatalysisA:General,2010,vol.390,p.135-140
[79]AppliedOrganometallicChemistry,2011,vol.25,p.420-423
[80]Organometallics,2011,vol.30,p.6270-6282
[81]Macromolecules,2011,vol.44,p.6810-6817
[82]ChemicalCommunications,2012,vol.48,p.8012-8014
[83]JournalofOrganometallicChemistry,2013,vol.724,p.206-212
[84]JournalofMolecularCatalysisA:Chemical,2013,vol.370,p.152-159
[85]JournalofOrganometallicChemistry,2014,vol.749,p.405-409
[86]JournaloftheChineseChemicalSociety,2014,vol.61,p.279-284
[87]ChemicalCommunications,2014,vol.50,p.13533-13536
[88]ChemCatChem,2015,vol.7,p.666-673
[89]JournalofOrganicChemistry,2015,vol.80,p.6922-6929
[90]Phosphorus,SulfurandSiliconandtheRelatedElements,2016,vol.191,p.1229-1234
[91]Patent:US2017/59755,2017,A1.Locationinpatent:Paragraph0246;0247
[92]Catalysisscienceandtechnology,2017,vol.7,p.4401-4412
[93]SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy,2017,vol.185,p.20-26
[94]ChemicalScience,2018,vol.9,p.4650-4661
[95]JournaloftheAmericanChemicalSociety,2018,vol.140,p.7385-7389
[96]OrganicLetters,2018,vol.20,p.5573-5577
[97]OrganicLetters,2019,vol.21,p.2650-2653
[98]EuropeanJournalofOrganicChemistry,2019,vol.2019,p.5214-5218
[99]Chemistry-AnAsianJournal,2019,vol.14,p.4553-4556
[100]InorganicChemistryCommunications,2020,vol.112
[101]AppliedOrganometallicChemistry,2012,vol.26,p.562-569,8
[1]ChemischeBerichte,1989,vol.122,p.2351-2360
[1]BulletinoftheAcademyofSciencesoftheUSSRDivisionofChemicalScience,1967,p.205-207 IzvestiyaAkademiiNaukSSSR,SeriyaKhimicheskaya,1967,p.208-210
[1]JournalofOrganicChemistry,1998,vol.63,p.8922-8925
