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Artykuły w czasopismach na temat „Coordination Chemistry - Non-Transition Metals”

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Data publikacji: 7 września 2023
Data aktualizacji: 31 lipca 2025

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1

Salzer, A. "Nomenclature of Organometallic Compounds of the Transition Elements (IUPAC Recommendations 1999)." Pure and Applied Chemistry 71, no. 8 (1999): 1557–85. http://dx.doi.org/10.1351/pac199971081557.

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Organometallic compounds are defined as containing at least one metal-carbon bond between an organic molecule, ion, or radical and a metal. Organometallic nomenclature therefore usually combines the nomenclature of organic chemisty and that of coordination chemistry. Provisional rules outlining nomenclature for such compounds are found both in Nomenclature of Organic Chemistry, 1979 and in Nomenclature of Inorganic Chemistry, 1990This document describes the nomenclature for organometallic compounds of the transition elements, that is compounds with metal-carbon single bonds, metal-carbon multi
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2

Kostova, Irena. "Anticancer Metallocenes and Metal Complexes of Transition Elements from Groups 4 to 7." Molecules 29, no. 4 (2024): 824. http://dx.doi.org/10.3390/molecules29040824.

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With the progression in the field of bioinorganic chemistry, the role of transition metal complexes as the most widely used therapeutics is becoming a more and more attractive research area. The complexes of transition metals possess a great variety of attractive pharmacological properties, including anticancer, anti-inflammatory, antioxidant, anti-infective, etc., activities. Transition metal complexes have proven to be potential alternatives to biologically active organic compounds, especially as antitumor agents. The performance of metal coordination compounds in living systems is anticipat
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3

Gallen, Albert, Sílvia Orgué, Guillermo Muller, et al. "Synthesis and coordination chemistry of enantiopure t-BuMeP(O)H." Dalton Transactions 47, no. 15 (2018): 5366–79. http://dx.doi.org/10.1039/c8dt00897c.

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4

Baumgartner, Judith, and Christoph Marschner. "Coordination of non-stabilized germylenes, stannylenes, and plumbylenes to transition metals." Reviews in Inorganic Chemistry 34, no. 2 (2014): 119–52. http://dx.doi.org/10.1515/revic-2013-0014.

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AbstractComplexes of transition metals with heavy analogs of carbenes (tetrylenes) as ligands have been studied now for some 40 years. The current review attempts to provide an overview about complexes with non-stabilized (having no π-donating substituents) germylenes, stannylenes, and plumbylenes. Complexes are known for groups 4–11. For groups 6–10 not only examples of monodentate tetrylene ligands, but also of bridging ones are known. While this review covers almost 200 complexes, the field in general has been approached only very selectively and real attempts for systematic studies are ver
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5

Kubas, Gregory J. "Molecular Hydrogen Coordination to Transition Metals." Comments on Inorganic Chemistry 7, no. 1 (1988): 17–40. http://dx.doi.org/10.1080/02603598808072297.

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6

Bobrov, Sergey V., Andrey A. Karasik, and Oleg G. Sinyashin. "Heterocyclic Phosphorus Ligands in Coordination Chemistry of Transition Metals." Phosphorus, Sulfur, and Silicon and the Related Elements 144, no. 1 (1999): 289–92. http://dx.doi.org/10.1080/10426509908546238.

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7

Molter, Anja, Julia Kuchar, and Fabian Mohr. "Acylselenoureas, selenosemicarbazones and selenocarbamate esters: Versatile ligands in coordination chemistry." New Journal of Chemistry 46, no. 10 (2022): 4534–49. http://dx.doi.org/10.1039/d2nj00026a.

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8

M., N. PATEL, and N. JANI B. "Coordination Polymers of some First Row Transition Metals." Journal of Indian Chemical Society Vol. 63, Mar 1986 (1986): 278–80. https://doi.org/10.5281/zenodo.6240907.

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Department of Chemistry, Sardar Patel University, Vallabh Vidyanagar-388 120 <em>Manuscript received 16 August 1984, revised 3 June 1985, accepted 24 December 1985</em> This paper describes the synthesis and characterisation of some new coordination polymers derived from poly Schiff base (PSB) and first row transition metal ions. Ir study showed that the metal ions are coordinated through oxygen of hydroxy group and nitrogen of adjacent azomethme group. The decomposition temperatures of the polymeric chelates were found to be in the&nbsp;order.&nbsp;Ni&gt;Co&gt;Cu&gt;Mn&nbsp;and the thermal ac
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9

Fischer, Roland A., and Jurij Weiß. "Coordination Chemistry of Aluminum, Gallium, and Indium at Transition Metals." Angewandte Chemie International Edition 38, no. 19 (1999): 2830–50. http://dx.doi.org/10.1002/(sici)1521-3773(19991004)38:19<2830::aid-anie2830>3.0.co;2-e.

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10

Holloway, Clive, and Milan Melnik. "Crystallographic and structural characterisation of heterometallic platinum compounds: Part I. Heterobinuclear Pt compounds." Open Chemistry 9, no. 4 (2011): 501–48. http://dx.doi.org/10.2478/s11532-011-0054-2.

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AbstractThis review covers almost 290 heterobinuclear Pt derivatives. When the heterometals (M) are non transition and the binuclear are found both with and without a metal to metal bond. Where M is a transition metal or actinide, only those with a metal-metal bond have been included here. There are thirteen non-transition metals (Sn, Hg, Ge, Sb, Tl, Zn, Pb, Cd, Na, K, Ga, Ca and In). The shortest Pt-M bond distance is 235.2(1) (Pt-Ge). There are eighteen transition metals (Fe, W, Rh, Re, Pd, Ag, Ir, Mo, Mn, Re, Co, Cu, Cr, Au, Ni, Ti, Ta and V). The shortest Pt-M bond distance is 249.5(2) pm
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11

Ramler, Jacqueline, and Crispin Lichtenberg. "Bismuth species in the coordination sphere of transition metals: synthesis, bonding, coordination chemistry, and reactivity of molecular complexes." Dalton Transactions 50, no. 21 (2021): 7120–38. http://dx.doi.org/10.1039/d1dt01300a.

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12

Leznoff, Daniel. "Phthalocyanines with Non-Traditional Early Transition-Metals." ECS Meeting Abstracts MA2022-01, no. 14 (2022): 950. http://dx.doi.org/10.1149/ma2022-0114950mtgabs.

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The synthesis, spectroscopic and redox properties of new metallophthalocyanines (PcM) are active areas of research. The rings of PcM complexes can be successively reduced using chemical, electrochemical, or photochemical methods to give rise to species containing ring-reduced Pc(3-), Pc(4-) or Pc(5-) ligands ; in the other direction, both ring-oxidized Pc(-1) and Pc(0)-containing systems can be accessed. These species are usually generated and characterized in situ and have only recently begun to be isolated and structurally characterized. In particular, there are few examples of phthalocyanin
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13

Chen, Lizhu, Hunter A. Dulaney, Branford O. Wilkins, et al. "High-spin enforcement in first-row metal complexes of a constrained polyaromatic ligand: synthesis, structure, and properties." New Journal of Chemistry 42, no. 23 (2018): 18667–77. http://dx.doi.org/10.1039/c8nj02072h.

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14

Pringouri, Konstantina, Muhammad U. Anwar, Liz Mansour, et al. "A novel bis-1,2,4-benzothiadiazine pincer ligand: synthesis, characterization and first row transition metal complexes." Dalton Transactions 47, no. 44 (2018): 15725–36. http://dx.doi.org/10.1039/c8dt03346c.

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15

Costabile, Chiara, Stefania Pragliola, and Fabia Grisi. "C2-Symmetric N-Heterocyclic Carbenes in Asymmetric Transition-Metal Catalysis." Symmetry 14, no. 8 (2022): 1615. http://dx.doi.org/10.3390/sym14081615.

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The last decades have witnessed a rapid growth of applications of N-heterocyclic carbenes (NHCs) in different chemistry fields. Due to their unique steric and electronic properties, NHCs have become a powerful tool in coordination chemistry, allowing the preparation of stable metal-ligand frameworks with both main group metals and transition metals. An overview on the use of five membered monodentate C2-symmetric N-heterocyclic carbenes (NHCs) as ligands for transition-metal complexes and their most relevant applications in asymmetric catalysis is offered.
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16

Kawamura, Airi, Alexander S. Filatov, and John S. Anderson. "Sulfonate-Ligated Coordination Polymers Incorporating Paramagnetic Transition Metals." European Journal of Inorganic Chemistry 2019, no. 21 (2019): 2613–17. http://dx.doi.org/10.1002/ejic.201900285.

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17

MEHROTRA, R. C., and A. SINGH. "ChemInform Abstract: Alkoxy Chemistry of Transition Metals. Links with Coordination and Organometallic Chemistry." ChemInform 22, no. 32 (2010): no. http://dx.doi.org/10.1002/chin.199132281.

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18

Khazanov, Thomas M., and Anusree Mukherjee. "Harnessing Oxidizing Potential of Nickel for Sustainable Hydrocarbon Functionalization." Molecules 29, no. 21 (2024): 5188. http://dx.doi.org/10.3390/molecules29215188.

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While the oxidative chemistry of transition metals such as iron and copper is a highly developed area of investigation, the study of similar chemistry with nickel is much younger. However, nickel offers rich coordination chemistry with oxygen and other oxidants and is a promising avenue of research for applications such as sustainable hydrocarbon functionalization. Herein, we summarize the progress made recently in nickel coordination chemistry relevant to hydrocarbon functionalization and offer our perspectives on open questions in the field.
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19

Wallis, Christopher, Peter G. Edwards, Martin Hanton, et al. "Coordination chemistry of 2,6-dixylyl-4-phenylphosphabarrelene with selected transition metals." Dalton Transactions, no. 12 (2009): 2170. http://dx.doi.org/10.1039/b816499a.

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20

David Smith, J. "Comprehensive Coordination Chemistry, Volume 3, Main Group and Early Transition Metals." Journal of Organometallic Chemistry 356, no. 2 (1988): C70—C71. http://dx.doi.org/10.1016/0022-328x(88)83106-1.

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21

Lehtonen, Ari. "Metal Complexes of Redox Non-Innocent Ligand N,N′-Bis(3,5-di-tertbutyl-2-hydroxy-phenyl)-1,2-phenylenediamine." Molecules 29, no. 5 (2024): 1088. http://dx.doi.org/10.3390/molecules29051088.

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Redox non-innocent ligands react with metal precursors to form complexes where the oxidation states of the ligand and thus the metal atom cannot be easily defined. A well-known example of such ligands is bis(o-aminophenol) N,N′-bis(3,5-di-tertbutyl-2-hydroxy-phenyl)-1,2-phenylenediamine, previously developed by the Wieghardt group, which has a potentially tetradentate coordination mode and four distinct protonation states, whereas its electrochemical behavior allows for five distinct oxidation states. This rich redox chemistry, as well as the ability to coordinate to various transition metals,
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22

Beldon, Patrick J., Sebastian Henke, Bartomeu Monserrat, Satoshi Tominaka, Norbert Stock, and Anthony K. Cheetham. "Transition metal coordination complexes of chrysazin." CrystEngComm 18, no. 27 (2016): 5121–29. http://dx.doi.org/10.1039/c5ce00792e.

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Eleven novel coordination compounds, composed of chrysazin (1,8-dihydroxyanthraquinone) and different first-row transition metals (Fe, Co, Ni, Cu), were synthesised and the structures determined by single-crystal X-ray diffraction.
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23

Santos, Ariana C. F., Luís P. G. Monteiro, Adriana C. C. Gomes, Fátima Martel, Teresa M. Santos, and Bárbara J. M. Leite Ferreira. "NSAID-Based Coordination Compounds for Biomedical Applications: Recent Advances and Developments." International Journal of Molecular Sciences 23, no. 5 (2022): 2855. http://dx.doi.org/10.3390/ijms23052855.

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After the serendipitous discovery of cisplatin, a platinum-based drug with chemotherapeutic effects, an incredible amount of research in the area of coordination chemistry has been produced. Other transition metal compounds were studied, and several new relevant metallodrugs have been synthetized in the past few years. This review is focused on coordination compounds with first-row transition metals, namely, copper, cobalt, nickel or manganese, or with zinc, which have potential or effective pharmacological properties. It is known that metal complexes, once bound to organic drugs, can enhance
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24

Olabe, José. "Coordination Chemistry of Nitric Oxide and Biological Signaling." Science Reviews - from the end of the world 2, no. 1 (2020): 64–99. http://dx.doi.org/10.52712/sciencereviews.v2i1.33.

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Nitric Oxide (NO) is a key intermediate in the nitrogen redox cycles that operate in soils, water and biological fluids, affording reversible interconversions between nitrates to ammonia and vice-versa. The discovery of its biosynthesis in mammals for signaling purposes generated a research explosion on the ongoing chemistry occurring in specific cellular compartments, centered on NO reactivity toward O2, thiols, amines, and transition metals, as well as derivatives thereof. The present review deals with the coordination chemistry of NO toward selected iron and ruthenium centers. We place spec
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25

Patel, Harshadkumar, and Himani Raval. "Advancements in Coordination Chemistry: A Comprehensive Review on the Synthesis and Characterization of Transition Metal Complexes with 4-Amino-5-pyridyl-4H-1, 2, 4-triazole-3-thiol Ligands." SPU Journal of Science, Technology and Management Research 1, no. 1 (2024): 1–6. https://doi.org/10.63766/spujstmr.24.000001.

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This review paper offers an in-depth analysis of recent advancements in coordination chemistry, specifically focusing on the production and portrayal of transition metal complexes that incorporate5-pyridyl 4-Amino-3-thiol -4H-1,2,4-triazole ligands. The study explores the various methods used to synthesize these complexes, covering a range of transition metals and diverse reaction conditions. It provides a thorough examination of the structural attributes, spectroscopic characteristics, and potential applications of the resulting complexes. The objective of the paper is to present valuable ins
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26

Benesperi, Iacopo, Reena Singh, and Marina Freitag. "Copper Coordination Complexes for Energy-Relevant Applications." Energies 13, no. 9 (2020): 2198. http://dx.doi.org/10.3390/en13092198.

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Copper coordination complexes have emerged as a group of transition metal complexes that play important roles in solar energy conversion, utilization and storage, and have the potential to replace the quintessential commonly used transition metals, like Co, Pt, Ir and Ru as light sensitizers, redox mediators, electron donors and catalytic centers. The applications of copper coordination compounds in chemistry and energy related technologies are many and demonstrate their rightful place as sustainable, low toxicity and Earth-abundant alternative materials. In this perspective we show the most r
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27

Izakovich, E. N., and M. L. Khidekel'. "Coordination Compounds of Transition Metals in the Chemistry of Aromatic Nitro-compounds." Russian Chemical Reviews 57, no. 5 (1988): 419–32. http://dx.doi.org/10.1070/rc1988v057n05abeh003360.

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28

Fischer, Roland A., and Jurij Weiss. "ChemInform Abstract: Coordination Chemistry of Aluminum, Gallium, and Indium at Transition Metals." ChemInform 31, no. 1 (2010): no. http://dx.doi.org/10.1002/chin.200001261.

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29

Bedin, Michele, Alavi Karim, Marcus Reitti, et al. "Counterion influence on the N–I–N halogen bond." Chemical Science 6, no. 7 (2015): 3746–56. http://dx.doi.org/10.1039/c5sc01053e.

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30

Bohle, D. Scott, Chen-Hsiung Hung, and Bryan D. Smith. "Theoretical, thermal, and coordination chemistry of the amphoteric thiazate (NSO–)1 ion." Canadian Journal of Chemistry 83, no. 12 (2005): 2021–31. http://dx.doi.org/10.1139/v05-191.

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The isomers of thiazate (NSO–) have a rich chemistry that is examined theoretically and experimentally for their thermal and coordination characteristics. The intramolecular isomerization of NSO– to monothionitrite (ONS–) is predicted (B3LYP/6-311+G*) to have a substantial barrier, greater than 418 kJ mol–1. Thus, thiazates are expected to be relatively thermally stable towards isomerization, and DSC indicates that KNSO undergoes a two stage irreversible thermolytic decomposition only beginning at 132 °C with ΔH = –116.3 kJ mol–1. As a ligand, the thiazate can adopt a range of geometries in re
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31

Lukens, James T., Ida M. DiMucci, Takashi Kurogi, Daniel J. Mindiola, and Kyle M. Lancaster. "Scrutinizing metal–ligand covalency and redox non-innocence via nitrogen K-edge X-ray absorption spectroscopy." Chemical Science 10, no. 19 (2019): 5044–55. http://dx.doi.org/10.1039/c8sc03350a.

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A series of nitrogen K-edge XAS data obtained for coordination complexes of diverse transition metals is used to calibrate computational pre-edge peak energies and to afford estimates of metal–ligand covalencies. The approach is extended to probe an inner-sphere aminyl radical ligand.
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32

Bruce, MI, and AH White. "Some Chemistry of Pentakis(methoxycarbonyl)cyclopentadiene, HC5(CO2Me)5, and Related Molecules." Australian Journal of Chemistry 43, no. 6 (1990): 949. http://dx.doi.org/10.1071/ch9900949.

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This article summarizes the results of investigations into the chemistry of HC5(CO2Me)5 and, in particular, of metal complexes containing the C5(CO2Me)5 ligand . As an anion, the ligand is very stable, forming air-stable, water-soluble salts with many cations with coordination to the metal atom in the solid state generally occurring through the ester carbonyl groups. Second- and third-row transition metals form complexes which retain the covalent ligand-metal bond in solution, 'harder' metals coordinating by the ester carbonyl groups, while 'softer' metals are bound to the ring carbons; a vari
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33

Bissinger, Philipp, Holger Braunschweig, Thomas Kupfer, and Krzysztof Radacki. "Monoborane NHC Adducts in the Coordination Sphere of Transition Metals." Organometallics 29, no. 17 (2010): 3987–90. http://dx.doi.org/10.1021/om100634b.

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34

Orysyk, Svitlana, Vasyl Pekhnyo, Viktor Orysyk, Yuri Zborovskii, Polina Borovyk, and Vovk Mykhailo. "FUNDAMENTAL ASPECTS OF COORDINATION CHEMISTRY OF TRANSITION METALS WITH FUNCTIONALLY SUBSTITUTED THIOAMIDES (PART 2)." Ukrainian Chemistry Journal 88, no. 3 (2022): 3–27. http://dx.doi.org/10.33609/2708-129x.88.03.2022.3-27.

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In the second part of the analytical review, the influence of polydentate and N-allyl-substituted thiamides on the course of complexation reactions with platinum metal ions and Ag(I) was analyzed. The potential of the obtained coordination compounds for their application in medical and analytical chemistry is also demonstrated. The presented results are obtained on the basis of joint research performed in the Department of "Chemistry of Complex Compounds" of the V.I. Vernadsky Institute of General and Inorganic Chemistry NAS of Ukraine together with the staff of the Department of “Chemistry of
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35

Karasik, A. A., O. G. Sinyashin, J. Heinicke, and E. Hey-Hawkins. "Phosphino Amino Acids: Novel Water-Soluble Ligands for Coordination Chemistry of Transition Metals." Phosphorus, Sulfur, and Silicon and the Related Elements 177, no. 6-7 (2002): 1469–71. http://dx.doi.org/10.1080/10426500212226.

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36

Matsuo, Tsukasa, and Hiroyuki Kawaguchi. "Tridentate Aryloxide Ligands: New Supporting Ligands in Coordination Chemistry of Early Transition Metals." Chemistry Letters 33, no. 6 (2004): 640–45. http://dx.doi.org/10.1246/cl.2004.640.

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37

Castañeda, Raúl, Bulat Gabidullin, and Jaclyn L. Brusso. "Exploring the coordination chemistry of imidoyl amidine ligands with first-row transition metals." Acta Crystallographica Section A Foundations and Advances 74, a1 (2018): a153. http://dx.doi.org/10.1107/s010876731809846x.

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38

Mathey, F., Angela Marinetti, Siegfried Bauer, and Pascal Le Floch. "Chemistry of phosphorus-carbon double bonds in the coordination sphere of transition metals." Pure and Applied Chemistry 63, no. 6 (1991): 855–58. http://dx.doi.org/10.1351/pac199163060855.

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39

Peruzzini, Maurizio, Isaac De Los Rios, and Antonio Romerosa. "ChemInform Abstract: Coordination Chemistry of Transition Metals with Hydrogen Chalcogenide and Hydrochalcogenido Ligands." ChemInform 33, no. 31 (2010): no. http://dx.doi.org/10.1002/chin.200231251.

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40

Kozáček, Pavel, Libor Dostál, Aleš Růžička, Ivana Císařová, Zdeněk Černošek та Milan Erben. "Synthesis and coordination properties of new σ2,λ3-P/N switchable chelators based on [1,2,3]-diazaphosphole". New Journal of Chemistry 43, № 34 (2019): 13388–97. http://dx.doi.org/10.1039/c9nj03146d.

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41

Calvo, Jenifer S., Victor M. Lopez, and Gabriele Meloni. "Non-coordinative metal selectivity bias in human metallothioneins metal–thiolate clusters." Metallomics 10, no. 12 (2018): 1777–91. http://dx.doi.org/10.1039/c8mt00264a.

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Mammalian metallothioneins MT-2 and MT-3 contain two metal–thiolate clusters through cysteine coordination of d<sup>10</sup> metals, Cu(i) and Zn(ii), and isoform-specific non-coordinating residues control their respective zinc– and copper–thionein character.
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42

Kubas, Gregory J. "Activation of dihydrogen and coordination of molecular H2 on transition metals." Journal of Organometallic Chemistry 751 (February 2014): 33–49. http://dx.doi.org/10.1016/j.jorganchem.2013.07.041.

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43

Karasev, M. O., V. A. Fomina, I. N. Karaseva, and D. V. Pushkin. "Crystallochemical Role of Benzoate and Phenylacetate Ions in Structures of Coordination 3d-Metal Compounds." Координационная химия 49, no. 4 (2023): 246–56. http://dx.doi.org/10.31857/s0132344x23700226.

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A crystal chemical analysis of the 3d-metal benzoate- and phenylacetate-containing compounds is carried out in terms of the stereoatomic crystal structure model using characteristics of the Voronoi–Dirichlet polyhedra. Coordination types of benzoate and phenylacetate anions toward the transition metals from Ti to Zn are considered. The influence of the coordination type on the characteristics of M–O bonds in the crystal structures is revealed. The electron-donating ability of benzoate and phenylacetate anions toward 3d metals is quantitatively estimated using the 18-electron rule.
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44

Vitiu, A., Ed Coropceanu, and P. Bourosh. "Coordination Compounds of Transition Metals with Rhodanine-3-Acetic Acid." Russian Journal of Coordination Chemistry 47, no. 11 (2021): 717–29. http://dx.doi.org/10.1134/s1070328421110063.

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45

Nimax, Patrick R., Nils Rotthowe, Florian Zoller, et al. "Coordination polymers of 5-substituted 1,2,3,4-tetracyanocyclopentadienides: structural and electrochemical properties of complex compounds of 5-amino- and 5-nitro-tetracyanocyclopentadienide." Dalton Transactions 50, no. 47 (2021): 17643–52. http://dx.doi.org/10.1039/d1dt02866a.

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Two electron-deficient polycyanated cyclopentadienides, utilized as ligands in coordination polymers with transition- and alkaline metals, show a reductive behavior to yield their neutral radicals when subjected to UV-light.
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Moulis, Jean-Marc. "Cellular Dynamics of Transition Metal Exchange on Proteins: A Challenge but a Bonanza for Coordination Chemistry." Biomolecules 10, no. 11 (2020): 1584. http://dx.doi.org/10.3390/biom10111584.

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Transition metals interact with a large proportion of the proteome in all forms of life, and they play mandatory and irreplaceable roles. The dynamics of ligand binding to ions of transition metals falls within the realm of Coordination Chemistry, and it provides the basic principles controlling traffic, regulation, and use of metals in cells. Yet, the cellular environment stands out against the conditions prevailing in the test tube when studying metal ions and their interactions with various ligands. Indeed, the complex and often changing cellular environment stimulates fast metal–ligand exc
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Tkáč, Alexander. "Alternating reactivity of free radicals coordinated to chelated transition metals and to hemoproteins." Collection of Czechoslovak Chemical Communications 53, no. 10 (1988): 2429–46. http://dx.doi.org/10.1135/cccc19882429.

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The mean lifetime of free radicals increases by coordination to transition metals of chelates including hemoproteins (hemoglobin, cytochrome c, catalase), when the radical generation proceeds in non-polar media in temperature range of physiological ones (290-310 K). In polar media (water, methyl- or ethylalcohol, pyridine), or in the presence of effective ligating agents (e.g. bases of nucleic acids), or at slightly elevated temperatures the intermediately stabilized oxygen centred radicals are liberated from the complex and the original high reactivity of the free radical is renewed. It is as
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Ovsyannikov, A. S., S. Ferlay, S. E. Solovieva, et al. "Molecular tectonics: high dimensional coordination networks based on methylenecarboxylate-appended tetramercaptothiacalix[4]arene in the 1,3-alternate conformation." CrystEngComm 20, no. 8 (2018): 1130–40. http://dx.doi.org/10.1039/c7ce02105d.

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Gang, Zhao, Cao Yuan, and Wang Zhongming. "Coordination Compounds of Dimethyl 1, 1′-Diacetylferrocenebis(hydrazonatocarbodithioate) with Transition Metals." Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry 26, no. 4 (1996): 617–25. http://dx.doi.org/10.1080/00945719608004766.

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Yunyin, Niu, Zhang Hongyun, Jia Handong, Wu Qingan, Li Feng, and Zhang Hongquan. "Studies on Formylferrocenyl Salicyloylhydrazone and Its Coordination Compounds with Transition Metals." Synthesis and Reactivity in Inorganic and Metal-Organic Chemistry 27, no. 10 (1997): 1491–500. http://dx.doi.org/10.1080/00945719708003153.

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