Диссертация (Реакции присоединения HO–, HN– нуклеофилов к диалкилцианамидам в координационной сфере Ni(II)), страница 17
Описание файла
Файл "Диссертация" внутри архива находится в папке "Реакции присоединения HO–, HN– нуклеофилов к диалкилцианамидам в координационной сфере Ni(II)". PDF-файл из архива "Реакции присоединения HO–, HN– нуклеофилов к диалкилцианамидам в координационной сфере Ni(II)", который расположен в категории "". Всё это находится в предмете "химия" из Аспирантура и докторантура, которые можно найти в файловом архиве СПбГУ. Не смотря на прямую связь этого архива с СПбГУ, его также можно найти и в других разделах. , а ещё этот архив представляет собой кандидатскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени кандидата химических наук.
Просмотр PDF-файла онлайн
Текст 17 страницы из PDF
Chem. Soc., Dalton Trans. 1984. – P.1349–1356.13198.Zhang Q., Zhang X.-Q. and Wang Z.-X. Nickel complexes supported by quinolinebased ligands: synthesis, characterization and catalysis in the cross-coupling ofarylzinc reagents and aryl chlorides or aryltrimethylammonium salts // DaltonTrans. 2012.
– Vol.41. – P. 10453.99.Herrera A. M. et al.Nickel(II) and copper(II) complexes with pyridine-containing macrocycles bearing an aminopropyl pendant arm: synthesis,characterization, and modifications of the pendant amino group // Dalton Trans.2003.– P. 846–856.100. Batten S. R., A. R. Harris. trans-Tetraaquabis(pyridine-3-carboxylate-N)nickel(II)// Acta Crystallogr., Sect. E.
Struct. Rep. Online. 2002. – Vol.57. – P. m9–m11.101. Boonlue S., Theppitak C., Chainok K. Tetraaqua(2,2′-bipyridine-κ2N,N′)nickel(II)sulfate // Acta Crystallogr., Sect. E Struct. Rep. Online. 2012. – Vol.68. – P.m908.102. Chen S.-P., Li N., Wei Q. and Gao S.-L. Synthesis, structure analysis andthermodynamics of [Ni(H2O)4(TO)2](NO3)2·2H2O (TO = 1,2,4-triazole-5-one) // J.Therm. Anal.
Calorim. 2010. – Vol.100. – P. 1115–1120.103. Hanic F. Pavelcik F. Despesova D. Crystal structure of bis(2-imino-4-amino-4methylpentane)nickel(II)bromide // Krystallografiya. 1972. – Vol.17. – P. 10–14.104. Hanic F. Crystal structure of bis(2-imino-4-amino-4-methyl-pentane)nickel(2)nitrate // Chem. Zvesti. 1969. – Vol.23. – P. 3–14.105. Kopylovich M.
N. and Pombeiro A. J. L. Coordination chemistry of 1,3,5triazapentadienes // Coord. Chem. Rev. 2011. – Vol.255. – P. 339–355.106. Kinzhalov M. A. et al. Coupling of C-amino aza-substituted heterocycles with anisocyanide ligand in palladium(II) complex // Russ. Chem. Bull. 2013. – Vol.62. –P. 758.107. Khripun A.
V. et al. Unusual reaction between (nitrile)Pt complexes andpyrazoles: Substitution proceeds via metal-mediated nitrile-pyrazole couplingfollowed by elimination of the nitrile // Inorg. Chem. 2006. – Vol.45. – №13 – P.5073–5083.108. Trofimenko S. Scorpionates : the coordination chemistry of polypyrazolborate132ligands // Imperial College Press, 1999.109. Pettinari C., Tăbăcaru A. and Galli S. Coordination polymers and metal–organicframeworks based on poly(pyrazole)-containing ligands // Coord. Chem. Rev.2016. – Vol.307. – P. 1–31.110. Doidge E. D., Roebuck J. W., Healy M. R. and Tasker P. A. Phenolic pyrazoles:Versatile polynucleating ligands // Coord. Chem. Rev.
2015. – Vol.288. – P. 98–117.111. Viciano-Chumillas M., Tanase S., de Jongh L. J. and Reedijk J. CoordinationVersatility of Pyrazole-Based Ligands towards High-Nuclearity Transition-Metaland Rare-Earth Clusters // Eur. J. Inorg. Chem. 2010. – P. 3403–3418.112. Castro I. et al. Dicopper(II) pyrazolenophanes: Ligand effects on their structuresand magnetic properties // Coord. Chem. Rev. 2016. – Vol.315. – P. 135–152.113.
Barros W. P. et al. Self-assembly, binding ability and magnetic properties ofdicopper(II) pyrazolenophanes // CrystEngComm. 2016. – Vol.18. – P. 437–449(2016).114. Xu J.-Y. et al. The self-assembly and magnetic properties of a Ni(II)8(µ4-hydroxo)6cube with µ2-pyrazolate as an exogeneous ancillary ligand // Chem. Commun.2008. – P. 6414.115. Halcrow M. A. et al. Pyrazoles and pyrazolides—flexible synthons in selfassembly // Dalton Trans. 2009. – Vol.72. – P. 2059.116.
Pérez, J. and Riera, L. Pyrazole Complexes and Supramolecular Chemistry // Eur.J. Inorg. Chem. 2009. – P. 4913–4925.117. Hou L. et al. Trinuclear-based Copper(I) Pyrazolate Polymers: Effect of Trimer πAcid···Halide/Pseudohalide Interactions on the Supramolecular Structure andPhosphorescence // Inorg. Chem. 2011. – Vol.50. – P. 261–270.118. Du L.-Y.
et al. Solvent or Temperature Induced Diverse Coordination Polymers ofSilver(I) Sulfate and Bipyrazole Systems: Syntheses, Crystal Structures,Luminescence, and Sorption Properties // Inorg. Chem. 2013. – Vol.52. – P.14018–14027.119. Dalle K. E. and Meyer F. Modelling Binuclear Metallobiosites: Insights from133Pyrazole-Supported Biomimetic and Bioinspired Complexes // Eur. J. Inorg.Chem. 2015. – P. 3391–3405.120. TongJ.etal.Programmableself-assemblyofhomo-orhetero-metallomacrocycles using 4-(1H-pyrazolyl-4-yl)pyridine // Chem.
Commun.2012. – Vol.48. – P. 5343.121. Ning,G.-H.etal.Self-AssemblyandHost−GuestInteractionofMetallomacrocycles Using Fluorescent Dipyrazole Linker with Dimetallic Clips.// Inorg. Chem. 2010. – Vol.49. – P. 7783–7792.122. Masciocchi N. et al. One-Dimensional Polymers Containing Strictly CollinearMetal Ions: Synthesis and XRPD Characterization of Homoleptic Binary MetalPyrazolates // Inorg. Chem.
2002. – Vol.41. – P. 6080–6089.123. Adams C. J. et al. Coordination chemistry in the solid state: synthesis andinterconversion of pyrazolium salts, pyrazole complexes, and pyrazolate MOFs //Dalt. Trans. – Vol.39. – P. 6974.124. Galli S. et al. Adsorption of Harmful Organic Vapors by Flexible HydrophobicBis-pyrazolate Based MOFs // Chem. Mater. 2010. – Vol.41.
– P. 1664–1672.125. Albanese E. et al. Theoretical and experimental characterization of pyrazolatobased Ni(II) metal–organic frameworks // J. Mater. Chem. 2012. – Vol.41. – P.22592.126. Salih K. S. M. et al. Trinuclear Diamagnetic Nickel(II) Complexes with Bridging3-Arylpyrazolato Ligands // Eur. J. Inorg. Chem.
2013. – P. 6049–6059.127. Tan W. et al. Synthesis and structural characterization of (CH2)n-bridged indenylpyrazoles and their cyclopentadienyl nickel(II) complexes // J. Organomet. Chem.2009. – Vol.694. – P. 199–206.128. Rettig S. J. et al. Transition metal azolates from metallocenes. Part 1: Dimetallicand trimetallic cyclopentadienyl nickel pyrazolates, synthesis and structuralstudies // Can. J. Chem. 1997. – Vol.75. – P.
949–958.129. Fujita K. et al. Novel monoanionic tripodal ligands: methylbis(1-methylimidazol2-yl)(pyrazol-1-yl)borate(= [MeB(ImN-Me)2(PzR)]−). Synthesis and structuralcharacterization of their nickel complexes and carboxylate shift from nickel to134boron // J. Chem. Soc. Dalton Trans. 2000. – Vol.120. – P. 117–119.130. Mukhopadhyay S., Mukhopadhyay U., Mak T. C.
W., and Ray D. Bis(3,5dimethylpyrazole-1-carbodithioato)Nickel(II)andItsTransformationtoaDinuclear Complex: Crystal Structure of [Ni2(µ-3,5-Me2Pz)2(L1)2] (L1 = 3,5dimethylpyrazole-1-carbodithioate) // Inorg. Chem. 2001. – Vol.40. – P. 1057–1059.131. Espinet P., Gallego A. M., Martínez-Ilarduya J. M., and Pastor E. DinuclearAzolato-Bridged Complexes of the Nickel Group Metals with Haloaryl Ligands: A Reinvestigation of Their Behavior in Solution // Inorg. Chem.
2000. – Vol.39. –P. 975–979.132. Jeon S.-J. et al. New bimetallic complexes of late transition metals involvingpyrazole-bridged bis N-heterocyclic carbene ligands // Dalton Trans. 2008. –Vol.127. – P. 437–439.133. Zhou Y., Xi Z., Chen W. and Wang D. Dinickel(II) Complexes of Bis(Nheterocyclic carbene) Ligands Containing [Ni2(µ-OH)] Cores as Highly EfficientCatalysts for the Coupling of Aryl Chlorides // Organometallics. 2008.
– Vol.27. –P. 5911–5920.134. Altmann, P. J. et al. Introducing a pyrazole/imidazole based hybrid cyclophane: ahydrogen bond sensor and binucleating ligand precursor // Dalton Trans. 2015. –Vol.44. – P. 11278–11281.135. Altmann P. J. and Pötig A. Capsoplexes: encapsulating complexes via guestrecognition // Chem. Commun. 2016. – P. 9089–9092.136. Procopio E. Q. et al. Study of the incorporation and release of the nonconventional half-sandwich ruthenium(II) metallodrug RAPTA-C on a robustMOFs // Chem. Commun. 2011. – Vol.47. – P.
11751–11753 .137. Xu J.-Y. et al. A new enneanuclear nickel(II) cluster with a rectangular facecentered trigonal prism structure and cluster glass behaviorw // Chem. Commun.2012. – Vol.48. – P. 1015–1017.138. Meyer F., Konrad M. and Kaifer E. Novel µ3-Coordination of Urea at a Nickel(II)Site: Structure, Reactivity and Ferromagnetic Superexchange // Eur.
J. Inorg.135Chem. 1999. – P. 1851–1854.139. Wang Q.-Q., Begum R. A., Day V. W. and Bowman-James K. Sulfur, oxygen, andnitrogen mustards: stability and reactivity // Org. Biomol. Chem. 2012. – Vol.10.– P. 8786.140. Huang J. et al. Amination of aliphatic alcohols catalyzed by CuO–NiO/γ–Al2O3 //Monatshefte für Chemie - Chem. Mon. 2013. – Vol.144. – P.
