[1]Patent:KR2015/77974,2015,A,.Locationinpatent:Paragraph0038-0039;0083-0085
[2]Chemistry-AEuropeanJournal,2016,vol.22,#39,p.13850-13856
[3]Synthesis,1984,vol.NO.9,p.747-752
[4]Organometallics,2016,vol.35,#10,p.1505-1513
[5]TetrahedronLetters,1999,vol.40,#9,p.1635-1636
[6]OrganicLetters,2004,vol.6,#12,p.1887-1890
[7]JournaloftheChemicalSociety,DaltonTransactions:InorganicChemistry(1972-1999),1984,p.1937-1944
[8]Chemistry-AEuropeanJournal,2014,vol.20,#16,p.4754-4761
[9]Patent:US2018/134655,2018,A1,.Locationinpatent:Paragraph0055
[10]JournalofOrganicChemistry,2015,vol.80,#17,p.8684-8693
[11]Patent:CN107954986,2018,A,.Locationinpatent:Paragraph0027;0039;0043
[12]Patent:CN104803984,2017,B,.Locationinpatent:Paragraph0043-0046
[13]TetrahedronLetters,2010,vol.51,#2,p.374-377
[14]RussianJournalofCoordinationChemistry,2015,vol.41,#2,p.129-134
[15]KoordinatsionnayaKhimiya,2015,vol.41,#2,p.129-134,6
[16]JournalofPolymerScience,PartA:PolymerChemistry,2012,vol.50,#1,p.25-34
[17]Macromolecules,2011,vol.44,#13,p.5218-5226
[18]LiebigsAnnalenderChemie,1988,p.455-464
[19]JournaloftheChemicalSociety,ChemicalCommunications,1993,#19,p.1505-1507
[20]SyntheticCommunications,2004,vol.34,#20,p.3743-3749
[21]Tetrahedron,2005,vol.61,#43,p.10309-10320
[22]ChemicalCommunications,2009,#16,p.2192-2194
[23]CatalysisLetters,2013,vol.143,#6,p.592-599
[24]RSCAdvances,2013,vol.3,#25,p.9745-9751
[25]RussianJournalofCoordinationChemistry/KoordinatsionnayaKhimiya,2013,vol.39,#9,p.650-654
[26]Koord.Khim.,
[27]JournalofMolecularStructure,2015,vol.1101,p.33-40
[28]Chemistry-AEuropeanJournal,2015,vol.21,#28,p.10070-10081
[29]Polyhedron,2018,vol.147,p.15-25
[30]ZeitschriftfurAnorganischeundAllgemeineChemie,2018,vol.644,#14,p.692-699
[1]OrganicLetters,2012,vol.14,#1,p.174-177
[2]EuropeanJournalofInorganicChemistry,2018,vol.2018,#6,p.795-804
[1]AdvancedSynthesisandCatalysis,2011,vol.353,#16,p.3023-3030
[2]OrganicLetters,2004,vol.6,#17,p.2865-2868
[3]Synthesis,2005,#2,p.223-232
[4]OrganicandBiomolecularChemistry,2007,vol.5,#15,p.2441-2447
[5]NewJournalofChemistry,2009,vol.33,#2,p.271-292
[6]Chemistry-AEuropeanJournal,2016,vol.22,#26,p.8814-8822
[7]JournalofPhysicalOrganicChemistry,2017,vol.30,#2,
[8]InorganicaChimicaActa,2019,vol.484,p.160-166
[9]InorganicChemistry,2010,vol.49,#13,p.5923-5934
[10]BioorganicandMedicinalChemistry,2013,vol.21,#17,p.5323-5331
[11]ChemicalCommunications,2003,#21,p.2666-2667
[12]Patent:WO2005/33119,2005,A1,.Locationinpatent:Page/Pagecolumn18-19
[13]ChemischeBerichte,1956,vol.89,p.1515,1519
[14]JournaloftheChemicalSociety,1958,p.3594,3601
[15]InorganicChemistry,2014,vol.53,#7,p.3417-3426
[16]Chemistry-AEuropeanJournal,2015,vol.21,#28,p.10070-10081
[17]AngewandteChemie-InternationalEdition,2018,vol.57,#42,p.13833-13837
[18]Angew.Chem.,2018,vol.130,p.14029-14033,5
[1]OrganicLetters,2012,vol.14,#1,p.174-177
[2]EuropeanJournalofInorganicChemistry,2018,vol.2018,#6,p.795-804
[1]CellChemicalBiology,2019,vol.26,p.901-6,907
[2]AdvancedSynthesisandCatalysis,2011,vol.353,p.3023-3030
[3]AngewandteChemie-InternationalEdition,2020,vol.59,p.2793-2801 Angew.Chem.,2020,vol.132,p.2815-2823,9
[4]OrganicLetters,2004,vol.6,p.2865-2868
[5]OrganicandBiomolecularChemistry,2007,vol.5,p.2441-2447
[6]NewJournalofChemistry,2009,vol.33,p.271-292
[7]Chemistry-AnAsianJournal,2019,vol.14,p.1184-1193
[8]Chemistry-AEuropeanJournal,2016,vol.22,p.8814-8822
[9]JournalofPhysicalOrganicChemistry,2017,vol.30
[10]InorganicaChimicaActa,2019,vol.484,p.160-166
[11]InorganicChemistry,2010,vol.49,p.5923-5934
[12]BioorganicandMedicinalChemistry,2013,vol.21,p.5323-5331
[13]ChemicalCommunications,2003,p.2666-2667
[14]Patent:WO2005/33119,2005,A1.Locationinpatent:Page/Pagecolumn18-19
[15]ChemischeBerichte,1956,vol.89,p.1515,1519
[16]JournaloftheChemicalSociety,1958,p.3594,3601
[17]InorganicChemistry,2014,vol.53,p.3417-3426
[18]Chemistry-AEuropeanJournal,2015,vol.21,p.10070-10081
[19]AngewandteChemie-InternationalEdition,2018,vol.57,p.13833-13837 Angew.Chem.,2018,vol.130,p.14029-14033,5
[1]JournaloftheChemicalSociety,DaltonTransactions,1991,p.627-637
[2]ChemicalCommunications,2017,vol.53,p.8419-8422
[3]AdvancedSynthesisandCatalysis,2004,vol.346,p.737-741
[4]InorganicChemistry,2015,vol.54,p.6176-6183
[5]Patent:WO2018/222169,2018,A2.Locationinpatent:Paragraph95;96;97
[6]JournalofOrganometallicChemistry,1991,vol.412,p.327-342
[7]ChemicalCommunications,2007,p.2935-2937
[8]InorganicChemistry,2010,vol.49,p.1872-1883
[9]Patent:WO2018/183965,2018,A1.Locationinpatent:Paragraph0323
[10]Patent:CN110305111,2019,A.Locationinpatent:Paragraph0053;0054
[11]DaltonTransactions,2012,vol.41,p.14480-14483
[12]AdvancedSynthesisandCatalysis,2020,vol.362,p.5788-5793
[13]InorganicaChimicaActa,2021,vol.518
[14]JournaloftheChemicalSociety.PerkintransactionsI,1984,p.1833-1838
[15]JournaloftheChemicalSociety,1958,p.3594,3601
[16]JournaloftheAmericanChemicalSociety,1984,vol.106,p.5497-5505
[17]TetrahedronLetters,1996,vol.37,p.4933-4936
[18]JournalofOrganicChemistry,1999,vol.64,p.3896-3906
[19]EuropeanJournalofMedicinalChemistry,2003,vol.38,p.441-446
[20]BioorganicandMedicinalChemistry,2003,vol.11,p.2901-2910
[21]Patent:US6613784,2003,B1
[22]Patent:US5428139,1995,A
[23]Patent:US5480990,1996,A
[24]Patent:US5739294,1998,A
[25]Patent:US5834456,1998,A
[26]Patent:US2004/23890,2004,A1
[27]Patent:US2004/23933,2004,A1
[28]JournalofOrganometallicChemistry,2012,vol.716,p.55-61
[29]InorganicChemistry,2018,vol.57,p.5486-5498
[30]RSCAdvances,2021,vol.11,p.14824-14828
[31]Molecules,2022,vol.27
[1]Patent:US2010/203613,2010,A1.Locationinpatent:Page/Pagecolumn10
[2]JournalofMedicinalChemistry,2011,vol.54,p.2039-2048
[3]OrganicandBiomolecularChemistry,2014,vol.12,p.9601-9620
[4]EuropeanJournalofOrganicChemistry,1999,p.2373-2381
[5]EuropeanJournalofOrganicChemistry,2017,vol.2017,p.5252-5261
[6]TetrahedronLetters,2008,vol.49,p.1993-1996
[7]BioconjugateChemistry,2019,vol.30,p.1539-1553
[8]ZeitschriftfurNaturforschung,B:ChemicalSciences,2000,vol.55,p.723-729
[9]DaltonTransactions,2010,vol.39,p.9055-9062
[10]InorganicChemistry,2018,vol.57,p.5939-5947
[11]JournalofOrganometallicChemistry,2019,vol.881,p.139-149
[12]JournaloftheAmericanChemicalSociety,2019,vol.141,p.175-181
[13]TetrahedronLetters,2017,vol.58,p.991-994
[14]EuropeanJournalofOrganicChemistry,2015,vol.2015,p.6988-6993
[15]OrganicandBiomolecularChemistry,2012,vol.10,p.7372-7381
[16]Tetrahedron,2009,vol.65,p.7573-7579
[17]OrganicandBiomolecularChemistry,2017,vol.15,p.9923-9931
[18]MolecularCrystalsandLiquidCrystals,2007,vol.470,p.369-381
[19]Synthesis,2008,p.2996-3008
[20]CrystEngComm,2018,vol.20,p.6963-6969
[21]JournalofOrganicChemistry,1999,vol.64,p.4191-4195
[22]ChemicalCommunications,2017,vol.53,p.3189-3192
[23]Phosphorus,SulfurandSiliconandtheRelatedElements,2008,vol.183,p.2237-2247
[24]SyntheticCommunications,2011,vol.41,p.3403-3408
[25]AsianJournalofChemistry,2011,vol.23,p.2411-2416
[26]TetrahedronLetters,2013,vol.54,p.5771-5774
[27]InorganicChemistryCommunications,2012,vol.21,p.16-20
[28]NewJournalofChemistry,2005,vol.29,p.99-108
[29]SpectrochimicaActaPartA:MolecularandBiomolecularSpectroscopy,2009,vol.72,p.198-203
[30]ChineseChemicalLetters,2020
[31]Tetrahedron,2018,vol.74,p.2641-2649
[32]JournaloftheChemicalSociety,1958,p.3594,3601
[33]JournaloftheAmericanChemicalSociety,1953,vol.75,p.3830
[34]Tetrahedron,1989,vol.45,p.1611-1622
[35]Synlett,1999,p.1749-1750
[36]HelveticaChimicaActa,2008,vol.91,p.2089-2096
[37]DaltonTransactions,2011,vol.40,p.7541-7550
[38]JournaloftheChineseChemicalSociety,2013,vol.60,p.245-250
[39]Patent:CN106518896,2017,A.Locationinpatent:Paragraph0047;0048
[40]ChemicalCommunications,2018,vol.54,p.12186-12189
[41]DaltonTransactions,2019,vol.48,p.8899-8910
4113-97-7
[1]Galan,Amalia;Pueyo,Encarnacion;Salmeron,Armando;Mendoza,Javierde[TetrahedronLetters,1991,vol.32,#15,p.1827-1830]
[1]Yakhontov,L.N.;Volzhina,O.N.;Glushakov,S.N.;Mastafanova,L.I.;Krasnokutskaya,D.M.;etal.[PharmaceuticalChemistryJournal,1980,vol.14,#11,p.799-803][Khimiko-FarmatsevticheskiiZhurnal,1980,vol.14,#11,p.77-83]
Title: Assembly of trinuclear and tetranuclear building units of Cu2+ towards two 1D magnetic systems: synthesis and magneto-structural correlations.
Journal: Dalton transactions (Cambridge, England : 2003) 20120521
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Journal: Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy 20111215
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Title: Diol-type ligands as central 'players' in the chemistry of high-spin molecules and single-molecule magnets.
Journal: Dalton transactions (Cambridge, England : 2003) 20081107
Title: 2-(Hydroxy-meth-yl)pyridinium chloride.
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