Lanthanoid complexes of pentadentate and hexadentate N5 and N6 macrocycles: Synthesis and applications
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A. M. García-Deibe | J. Sanmartín-Matalobos | M. Fondo | Julio Corredoira-Vázquez | Cristina González-Barreira | Paula Oreiro-Martínez
[1] Aihua Yuan,et al. Axial Ligand as a Critical Factor for High-Performance Pentagonal Bipyramidal Dy(III) Single-Ion Magnets. , 2022, Inorganic chemistry.
[2] E. Spodine,et al. Lanthanide SMMs based on Belt Macrocycles: Recent Advances and General Trends. , 2022, Chemistry.
[3] Chen Zhao,et al. Air-Stable Dy(III)-Macrocycle Enantiomers: From Chiral to Polar Space Group , 2022, CCS Chemistry.
[4] J. Lisowski,et al. Sorting Phenomena and Chirality Transfer in Fluoride-Bridged Macrocyclic Rare Earth Complexes , 2021, Inorganic chemistry.
[5] E. Spodine,et al. Thermal dependence of the luminescent properties of mononuclear TbIII macrocyclic complexes , 2021, European Journal of Inorganic Chemistry.
[6] A. Vega,et al. Effect of terbium(III) species on the structure and physical properties of polyurethane (TPU) , 2021, Polymer.
[7] J. Seco,et al. Single-Molecule Magnets: From Mn12-ac to dysprosium metallocenes, a travel in time , 2021 .
[8] Xiaodong Liu,et al. Air-Stable Chiral Single-Molecule Magnets with Record Anisotropy Barrier Exceeding 1800 K. , 2021, Journal of the American Chemical Society.
[9] G. Roviello,et al. Synthesis and Spectroscopic Investigation of a Hexaaza Lanthanum(III) Macrocycle with a Hybrid-Type G4 DNA Stabilizing Effect. , 2021, Inorganic chemistry.
[10] P. Gawryszewska,et al. Rare earth complexes of chiral unsymmetrical hexaazamacrocycles , 2021 .
[11] K. Bernot,et al. A Journey in Lanthanide Coordination Chemistry: From Evaporable Dimers to Magnetic Materials and Luminescent Devices. , 2021, Accounts of chemical research.
[12] A. Vega,et al. Control of magnetic anisotropy by macrocyclic ligand distortion in a family of DyIII and ErIII single molecule magnets. , 2020, Dalton transactions.
[13] Angelos B. Canaj,et al. Engineering macrocyclic high performance pentagonal bipyramidal Dy(III) single-ion magnets. , 2020, Chemical communications.
[14] Janusz Gregoliński,et al. Monomeric and dimeric nitrate lanthanide(III) and yttrium(III) coordination compounds of (2 + 2) imine macrocycle derived from 2,6-diformylpyridine and trans-1,2-diaminocyclopentane , 2020 .
[15] Ho-Yin Wong,et al. Chirality and Chiroptics of Lanthanide Molecular and Supramolecular Assemblies , 2019 .
[16] J. Lisowski,et al. Carbonate-bridged dinuclear lanthanide(III) complexes of chiral macrocycle , 2019, Polyhedron.
[17] Yan‐Zhen Zheng,et al. Air-Stable Hexagonal Bipyramidal Dysprosium(III) Single-Ion Magnets with Nearly Perfect D6h Local Symmetry. , 2019, Chemistry.
[18] J. Lisowski,et al. Chirality transfer between hexaazamacrocycles in heterodinuclear rare earth complexes. , 2019, Dalton transactions.
[19] Angelos B. Canaj,et al. Insight into D 6h Symmetry: Targeting Strong Axiality in Stable Dysprosium(III) Hexagonal Bipyramidal Single‐Ion Magnets , 2019, Angewandte Chemie.
[20] V. Rao,et al. Lanthanide complexes as molecular dopants for realizing air-stable n-type graphene logic inverters with symmetric transconductance , 2019, Materials Horizons.
[21] C. Nuñez,et al. A new series of lanthanide complexes with the trans-disubstituted Py2[18]aneN6 macrocyclic ligand: synthesis, structures and properties , 2019, Polyhedron.
[22] Fu-Sheng Guo,et al. Magnetic hysteresis up to 80 kelvin in a dysprosium metallocene single-molecule magnet , 2018, Science.
[23] P. Caravan,et al. Chemistry of MRI Contrast Agents: Current Challenges and New Frontiers. , 2018, Chemical reviews.
[24] Janusz Gregoliński,et al. Lanthanide(III) and yttrium(III) coordination compounds of diastereomeric (2+2) macrocyclic imines derived from 2,6-diformylpyridine and trans-1,2-diaminocyclopentane , 2018, Polyhedron.
[25] R. Yousefi,et al. Competitive binding affinity of two lanthanum(III) macrocycle complexes toward DNA and bovine serum albumin in water , 2017, Journal of the Iranian Chemical Society.
[26] H. Pellissier. Recent developments in enantioselective lanthanide-catalyzed transformations , 2017 .
[27] Song Gao,et al. Understanding the Magnetic Anisotropy toward Single-Ion Magnets. , 2016, Accounts of chemical research.
[28] L. Carlos,et al. Lanthanide Organic Framework Luminescent Thermometers. , 2016, Chemistry.
[29] I. Bruno,et al. Cambridge Structural Database , 2002 .
[30] C. Lodeiro,et al. Novel trans-disubstituted hexaaza-macrocyclic ligands containing pyridine head units: Synthesis, disubstitution and colorimetric properties , 2016 .
[31] M. Pilkington,et al. Coordination complexes of 15-membered pentadentate aza, oxoaza and thiaaza Schiff base macrocycles “Old Complexes Offer New Attractions” , 2015 .
[32] J. Lisowski,et al. Monomeric, dimeric and polymeric lanthanide(III) complexes of a hexaazamacrocyclic imine derived from 2,6-diformylpyridine and ethylenediamine , 2015 .
[33] M. Rezaeivala,et al. Schiff base and non-Schiff base macrocyclic ligands and complexes incorporating the pyridine moiety – The first 50 years , 2014 .
[34] J. Rawson,et al. Slow relaxation in the first penta-aza Dy(III) macrocyclic complex. , 2014, Chemical Communications.
[35] J. Long,et al. Exploiting single-ion anisotropy in the design of f-element single-molecule magnets , 2011 .
[36] S. Alvarez,et al. Polyhedral structures with an odd number of vertices: nine-coordinate metal compounds. , 2008, Chemistry.
[37] S. C. Jackels,et al. Helical hexaazamacrocyclic ligands containing pyridyl and (+ or −)-trans-diaminocyclohexyl groups: effect of ligand constraints upon metal ion binding , 1996 .
[38] L. Vallarino,et al. Complexes of the lanthanide(III) ions with an aromatic six-nitrogen-donor macrocyclic ligand , 1991 .
[39] P. A. Vigato,et al. Macrocyclic Schiff base complexes of lanthanides and actinides , 1988 .
[40] Chen Zhao,et al. Conjugated Schiff-base macrocycle weakens the transverse crystal field of air-stable dysprosium single-molecule magnets , 2022, Inorganic Chemistry Frontiers.
[41] Aihua Yuan,et al. Cyanometallate- and carbonate-bridged dysprosium chain complex with a pentadentate macrocyclic ligand: synthesis, structure, and magnetism , 2022, New Journal of Chemistry.