M. Andruh, The exceptionally rich coordination chemistry generated by Schiff-base ligands derived from o-vanillin, Dalton Trans, vol.44, pp.16633-16653, 2015.

Y. Bi, C. Chen, Y. Zhao, Y. Zhang, S. Jiang et al., Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field, Chem. Sci, vol.7, pp.5020-5031, 2016.

Y. Bi, X. Wang, W. Liao, X. Wang, R. Deng et al., Thiacalix[4]arene-Supported planar Ln4 (Ln = TbIII, DyIII) clusters: toward luminescent and magnetic bifunctional materials, Inorg. Chem, vol.48, pp.11743-11747, 2009.

L. Bogani and W. Wernsdorfer, Molecular spintronics using singlemolecule magnets, Nat. Mater, vol.7, pp.179-186, 2008.

A. Boulkedid, J. Long, C. Beghidja, Y. Guari, A. Beghidja et al., A luminescent Schiff-base heterotrinuclear Zn2Dy singlemolecule magnet with an axial crystal field, Dalton Trans, vol.47, pp.1402-1406, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01696492

R. A. Buchanan, K. A. Wickersheim, J. J. Pearson, H. , and G. F. , Energy levels of Yb 3+ in gallium and aluminum garnets. I. spectra, Phys. Rev, vol.159, pp.245-251, 1967.

J. G. Bunzli, P. , and C. , Taking advantage of luminescent lanthanide ions, Chem. Soc. Rev, vol.34, pp.1048-1077, 2005.

C. E. Burrow, T. J. Burchell, P. Lin, F. Habib, W. Wernsdorfer et al., Salen-Based [Zn2Ln3] complexes with fluorescence and single-molecule-magnet properties, Inorg. Chem, vol.48, pp.8051-8053, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00489139

Y. Chen, J. Liu, L. Ungur, J. Liu, Q. Li et al., Symmetry-supported magnetic blocking at 20 K in pentagonal bipyramidal Dy(III) single-ion magnets, J. Am. Chem. Soc, vol.138, pp.2829-2837, 2016.

Y. C. Chen, J. L. Liu, Y. Lan, Z. Q. Zhong, A. Mansikkamaki et al., Dynamic magnetic and optical insight into a high performance pentagonal bipyramidal dyIII single-ion magnet, Chem. Eur. J, vol.23, pp.5708-5715, 2017.

S. Cheong and M. Mostovoy, Multiferroics: a magnetic twist for ferroelectricity, Nat. Mater, vol.6, pp.13-20, 2007.

J. P. Costes, S. Titos-padilla, I. Oyarzabal, T. Gupta, C. Duhayon et al., Analysis of the role of peripheral ligands coordinated to znii in enhancing the energy barrier in luminescent linear trinuclear Zn-Dy-Zn single-molecule magnets, Chem. Eur. J, vol.21, pp.15785-15796, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01923978

J. P. Costes, S. Titos-padilla, I. Oyarzabal, T. Gupta, C. Duhayon et al., Effect of ligand substitution around the DyIII on the SMM properties of dual-luminescent Zn-Dy and Zn-DyZn complexes with large anisotropy energy barriers: a combined theoretical and experimental magnetostructural study, Inorg. Chem, vol.55, pp.4428-4440, 2016.

G. Cucinotta, M. Perfetti, J. Luzon, M. Etienne, P. Car et al., Magnetic anisotropy in a dysprosium/DOTA single-molecule magnet: beyond simple magneto-structural correlations, Angew. Chem. Int. Ed, vol.51, pp.1606-1610, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00664737

P. Dechambenoit and J. R. Long, Microporous magnets, Chem. Soc. Rev, vol.40, pp.3249-3265, 2011.

Y. Ding, N. F. Chilton, R. E. Winpenny, and Y. Zheng, On Approaching the Limit of molecular magnetic anisotropy: a near-perfect pentagonal bipyramidal dysprosium(III) single-molecule magnet, Angew. Chem. Int. Ed, vol.55, pp.16071-16074, 2016.

W. Eerenstein, N. D. Mathur, and J. F. Scott, Multiferroic and magnetoelectric materials, Nature, vol.442, pp.759-765, 2006.

K. Ehama, Y. Ohmichi, S. Sakamoto, T. Fujinami, N. Matsumoto et al., Synthesis, structure, luminescent, and magnetic properties of carbonato-bridged ZnII2LnIII2 Complexes, 2013.

. Bis, ethoxy-2-oxybenzylidene)-1,3-propanediaminato), Inorg. Chem, vol.52, issue.3, pp.12828-12841

L. Escalera-moreno, J. J. Baldoví, A. Gaita-ariño, and E. Coronado, Spin states, vibrations and spin relaxation in molecular nanomagnets and spin qubits: a critical perspective, Chem. Sci, vol.9, pp.3265-3275, 2018.

M. Fiebig, T. Lottermoser, D. Meier, and M. Trassin, The evolution of multiferroics, Nat. Rev. Mater, vol.1, p.16046, 2016.

C. A. Goodwin, F. Ortu, D. Reta, N. F. Chilton, and D. P. Mills, Molecular magnetic hysteresis at 60 kelvin in dysprosocenium, Nature, vol.548, pp.439-442, 2017.

M. Gregson, N. F. Chilton, A. Ariciu, F. Tuna, I. F. Crowe et al., A monometallic lanthanide bis(methanediide) single molecule magnet with a large energy barrier and complex spin relaxation behaviour, Chem. Sci, vol.7, pp.155-165, 2016.

P. Grünberg, S. Hüfner, E. Orlich, and J. Schmitt, Crystal field in dysprosium garnets, Phys. Rev, vol.184, pp.285-293, 1969.

F. Guo, B. M. Day, Y. Chen, M. Tong, A. Mansikkamäki et al., A dysprosium metallocene single-molecule magnet functioning at the axial limit, Angew. Chem. Int. Ed, vol.56, pp.11445-11449, 2017.

F. Guo, B. M. Day, Y. Chen, M. Tong, A. Mansikkamäki et al., Magnetic hysteresis up to 80 kelvin in a dysprosium metallocene single-molecule magnet, Science, vol.362, pp.1400-1403, 2018.

S. K. Gupta, T. Rajeshkumar, G. Rajaraman, and R. Murugavel, An air-stable Dy(iii) single-ion magnet with high anisotropy barrier and blocking temperature, Chem. Sci, vol.7, pp.5181-5191, 2016.

T. Hang, W. Zhang, H. Ye, and R. Xiong, Metal-organic complex ferroelectrics, Chem. Soc. Rev, vol.40, pp.3577-3598, 2011.

P. Horcajada, R. Gref, T. Baati, P. K. Allan, G. Maurin et al., Metal-organic frameworks in biomedicine, Chem. Rev, vol.112, pp.1232-1268, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00714281

N. Ishikawa, M. Sugita, T. Ishikawa, S. Koshihara, and Y. Kaizu, Lanthanide double-decker complexes functioning as magnets at the singlemolecular level, J. Am. Chem. Soc, vol.125, pp.8694-8695, 2003.

J. Jia, Q. Li, Y. Chen, J. Liu, and M. Tong, Luminescent single-molecule magnets based on lanthanides: design strategies, recent advances and magneto-luminescent studies, Coord. Chem. Rev, vol.378, pp.365-381, 2019.

M. N. Leuenberger and D. Loss, Quantum computing in molecular magnets, Nature, vol.410, pp.789-793, 2001.

B. Li, H. Wen, Y. Cui, W. Zhou, G. Qian et al., Emerging multifunctional metal-organic framework materials, Adv. Mater, vol.28, pp.8819-8860, 2016.

S. T. Liddle and J. Van-slageren, Improving f-element single molecule magnets, Chem. Soc. Rev, vol.44, pp.6655-6669, 2015.

J. Liu, Y. Chen, J. Liu, V. Vieru, L. Ungur et al., A stable pentagonal bipyramidal dy(iii) single-ion magnet with a record magnetization reversal barrier over 1000 K, J. Am. Chem. Soc, vol.138, pp.5441-5450, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01971368

J. Long, I. V. Basalov, N. V. Forosenko, K. A. Lyssenko, E. Mamontova et al., Dysprosium single-molecule magnets with bulky schiff-base ligands: modification of the slow relaxation of the magnetization by substituent change, Chem. Eur. J, vol.25, pp.474-478, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01980996

J. Long, Y. Guari, R. A. Ferreira, L. D. Carlos, and J. Larionova, Recent advances in luminescent lanthanide based single-molecule magnets, Coord. Chem. Rev, vol.363, pp.57-70, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01738639

J. Long, Y. Guari, C. Guerin, and J. Larionova, Prussian blue type nanoparticles for biomedical applications, Dalton Trans, vol.45, pp.17581-17587, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01394590

J. Long, E. Mamontova, V. Freitas, D. Luneau, V. Vieru et al., Study of the influence of magnetic dilution over relaxation processes in a Zn/Dy single-ion magnet by correlation between luminescence and magnetism, RSC Adv, vol.6, pp.108810-108818, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01397055

J. Long, J. Rouquette, J. Thibaud, R. A. Ferreira, L. D. Carlos et al., A high-temperature molecular ferroelectric Zn/Dy complex exhibiting single-ion-magnet behavior and lanthanide luminescence, Angew. Chem. Int. Ed, vol.54, pp.2236-2240, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01899652

J. Long, R. Vallat, R. A. Ferreira, L. D. Carlos, F. A. Almeida-paz et al., A bifunctional luminescent single-ion magnet: towards correlation between luminescence studies and magnetic slow relaxation processes, Chem. Commun, vol.48, pp.9974-9976, 2012.

P. Mandal, M. J. Pitcher, J. Alaria, H. Niu, P. Borisov et al., Designing switchable polarization and magnetization at room temperature in an oxide, Nature, vol.525, pp.363-366, 2015.

Y. Meng, L. Xu, J. Xiong, Q. Yuan, T. Liu et al., , 2018.

, Low-coordinate single-ion magnets by intercalation of lanthanides into a phenol matrix, Angew. Chem. Int. Ed, vol.57, pp.4673-4676

I. Oyarzabal, J. Ruiz, E. Ruiz, D. Aravena, J. M. Seco et al., Increasing the effective energy barrier promoted by the change of a counteranion in a Zn-Dy-Zn SMM: slow relaxation via the second excited state, Chem. Commun, vol.51, pp.12353-12356, 2015.

F. Pointillart, B. Le-guennic, O. Cador, O. Maury, and L. Ouahab, Lanthanide ion and tetrathiafulvalene-based ligand as a "Magic" couple toward luminescence, single molecule magnets, and magnetostructural correlations, ACC. Chem. Res, vol.48, pp.2834-2842, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01220890

M. Ren, S. Bao, R. A. Ferreira, L. Zheng, C. et al., A layered erbium phosphonate in pseudo-D5h symmetry exhibiting field-tunable magnetic relaxation and optical correlation, Chem. Commun, vol.50, pp.7621-7624, 2014.

J. D. Rinehart and J. R. Long, Exploiting single-ion anisotropy in the design of f-element single-molecule magnets, Chem. Sci, vol.2, pp.2078-2085, 2011.

S. Shintoyo, K. Murakami, T. Fujinami, N. Matsumoto, N. Mochida et al., Crystal field splitting of the ground state of terbium(III) and dysprosium(III) complexes with a triimidazolyl tripod ligand and an acetate determined by magnetic analysis and luminescence, Inorg. Chem, vol.53, pp.10359-10369, 2014.

W. Sun, P. Yan, S. Jiang, B. Wang, Y. Zhang et al., High symmetry or low symmetry, that is the question-high performance Dy(iii) single-ion magnets by electrostatic potential design, Chem. Sci, vol.7, pp.684-691, 2016.

, Lanthanide single-ion molecular magnets, Lanthanide Single Molecule Magnets, pp.41-90, 2015.

C. Train, M. Gruselle, and M. Verdaguer, The fruitful introduction of chirality and control of absolute configurations in molecular magnets, Chem. Soc. Rev, vol.40, pp.3297-3312, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01765703

L. Ungur and L. F. Chibotaru, Strategies toward high-temperature lanthanide-based single-molecule magnets, Inorg. Chem, vol.55, pp.10043-10056, 2016.

A. Upadhyay, S. K. Singh, C. Das, R. Mondol, S. K. Langley et al., Enhancing the effective energy barrier of a Dy(iii) SMM using a bridged diamagnetic Zn(ii) ion, Chem. Commun, vol.50, pp.8838-8841, 2014.

H. Wang, D. Zhang, Z. Ni, X. Li, L. Tian et al., , 2009.

, Synthesis, crystal structures, and luminescent properties of phenoxo-bridged heterometallic trinuclear propeller-and sandwich-like schiff-base complexes, Inorg. Chem, vol.48, pp.5946-5956

W. Wong, H. Liang, W. Wong, Z. Cai, K. Li et al., Synthesis and near-infrared luminescence of 3d-4f bi-metallic Schiff base complexes, New. J. Chem, vol.26, pp.275-278, 2002.

W. Wong, X. Yang, R. A. Jones, J. H. Rivers, V. Lynch et al., Multinuclear luminescent schiff-base Zn-Nd sandwich complexes, Inorg. Chem, vol.45, pp.4340-4345, 2006.

D. N. Woodruff, R. E. Winpenny, and R. A. Layfield, Lanthanide single-molecule magnets, Chem. Rev, vol.113, pp.5110-5148, 2013.