[1]Villemin,Didier;Hammadi,Mohamed;Hachemi,Messaoud[SyntheticCommunications,2002,vol.32,#10,p.1501-1515]
[2]Binstead,RobertA.;McGuire,MarkE.;Dovletoglou,Angelos;Seok,WonK.;Roecker,LeeE.;Meyer,ThomasJ.[JournaloftheAmericanChemicalSociety,1992,vol.114,#1,p.173-186]
[3]Dakin[AmericanChemicalJournal,1909,vol.42,p.495]
[1]Wang,Tao;Rabe,Patrick;Citron,ChristianA.;Dickschat,JeroenS.[BeilsteinJournalofOrganicChemistry,2013,vol.9,p.2767-2777]
[2]Reddy,K.Laxma;Vittal[SyntheticCommunications,1997,vol.27,#1,p.107-118]
[3]Kulkarni,MukundG.;Kate,SandeshD.[JournaloftheChemicalSociety.PerkinTransactions1(2001),2000,#24,p.4242-4244]
[4]Cameron,DonaldW.;Heisey,RossM.[AustralianJournalofChemistry,2000,vol.53,#2,p.109-121]
[5]Faust[JustusLiebigsAnnalenderChemie,1869,vol.149,p.153]
[6]Carlson,BrianW.;Miller,LarryL.[JournaloftheAmericanChemicalSociety,1985,vol.107,#2,p.479-485]
[7]Atkins,PaulJ.;Gold,Victor;Wassef,WasfyN.[JournaloftheChemicalSociety.PerkintransactionsII,1986,p.463-466]
[8]Smith,TerrenceJ.;Wearne,RossH.;Wallis,AdrianF.A.[Chemosphere,1994,vol.29,#7,p.1555-1560]
[9]Papaconstantinou;Androulaki;Minero;Androulaki;Dimotikali;Pelizzetti;Hiskia[EnvironmentalScienceandTechnology,2000,vol.34,#10,p.2024-2028]
[10]Waidyanatha,Suramya;Lin,Po-Hsiung;Rappaport,StephenM.[ChemicalResearchinToxicology,1996,vol.9,#3,p.647-653]
[11]Locationinpatent:schemeortableWebb,BrianN.;Ballinger,JordanW.;Kim,Eunjung;Belchik,SaraM.;Lam,Ka-Sum;Youn,Buhyun;Nissen,MarkS.;Xun,Luying;Kang,Chulhee[JournalofBiologicalChemistry,2010,vol.285,#3,p.2014-2027]
[12]Locationinpatent:bodytextMacHonkin,TimothyE.;Doerner,AmyE.[Biochemistry,2011,vol.50,#41,p.8899-8913]
[13]Xu,Xiao-Long;Li,Zhi[AngewandteChemie-InternationalEdition,2017,vol.56,#28,p.8196-8200][Angew.Chem.,2017,vol.129,#28,p.8308-8312]
[1]Florjanczyk,Zbigniew;Szymanska-Zachara,Ewa[JournalofOrganometallicChemistry,1983,vol.259,#2,p.127-138]
[1]Reddy,K.Laxma;Vittal[SyntheticCommunications,1997,vol.27,#1,p.107-118]
[1]AmericanChemicalJournal,1909,vol.42,p.495
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