J. G. Bunzli and C. Piguet, Taking advantage of luminescent lanthanide ions, Chemical Society Reviews, vol.34, pp.1048-1077, 2005.

J. C. Bünzli, Benefiting from the unique properties of lanthanide ions, Accounts Chem. Res, vol.39, pp.53-61, 2006.

S. Comby, J. C. Bünzli, K. A. Gschneider, and V. K. Pecharsky, Lanthanide Near-Infrared Luminescence in Molecular Probes and Devices, Handbook on the Physics and Chemistry of Rare Earths, vol.37, pp.1-353, 2007.

J. G. Bünzli, S. Comby, A. Chauvin, and C. D. Vandevyver, New opportunities for lanthanide luminescence, J. Rare Earths, vol.25, pp.257-274, 2007.

S. V. Eliseeva and J. C. Bünzli, Lanthanide luminescence for functionnal materials and biosciences, Chem. Soc. Rev, vol.39, pp.189-227, 2010.

J. G. Bünzli, Lanthanide luminescence for biomedical analyses and imaging, Chem. Rev, vol.111, pp.2729-2755, 2010.

S. V. Eliseeva and J. C. Bünzli, Rare earths : jewels for functionnal materials of the future, New J. Chem, vol.35, pp.1165-1176, 2011.

J. C. Bünzli, Rising stars in science and technology : Luminescent lanthanide materials, Eur. J. Inorg. Chem, pp.5058-5063, 2017.

K. Binnemans, Lanthanide based luminescent hybrid materials, Chem. Rev, vol.109, pp.4283-4374, 2009.

Y. Cui, Y. Yue, G. Qian, and B. Chen, Luminescent Functional Metal-Organic Frameworks, Chem. Rev, vol.2012, pp.1126-1162

Y. Cui, B. Li, H. He, W. Zhou, B. Chen et al., Metal-organic frameworks as platforms for functionnal materials, Accounts Chem. Res, vol.49, pp.483-493, 2016.

Y. Cui, J. Zhang, H. He, and G. Qian, Photonic functional metal-organic frameworks, Chem. Soc. Rev, vol.47, pp.5740-5785, 2018.

O. Guillou, C. Daiguebonne, G. Calvez, and K. Bernot, A long journey in lanthanide chemistry : from fundamental crystallogenesis studies to commercial anti-counterfeiting taggants, Accounts Chem. Res, vol.49, pp.844-856, 2016.

O. Guillou and C. Daiguebonne, Lanthanide ions containing coordination polymers, Handbook on the Physics and Chemistry of Rare Eaths, vol.34, pp.359-404, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00194371

Y. Qiu, C. Daiguebonne, J. Liu, R. Zeng, N. Kerbellec et al., Four threedimensionnal lanthanide coordination polymers constructed from benzene-1,4-dioxyacetic acid, Inorg. Chim. Acta, vol.360, pp.3265-3271, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00525262

Y. Luo, K. Bernot, G. Calvez, S. Freslon, C. Daiguebonne et al., 1,2,4,5-benzene-tetra-carboxylic acid : A versatile ligand for high dimensionnal lanthanide-based coordination polymers, Cryst. Eng. Comm, vol.15, pp.1882-1896, 2013.

Y. Luo, Y. Zheng, G. Calvez, S. Freslon, K. Bernot et al., Synthesis, crystal structure and luminescent properties of new lanthanide-containing coordination polymers Involving 4,4'-oxy-bis-benzoate as Ligand, Cryst. Eng. Comm, vol.15, pp.706-720, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00771341

S. Sene, M. A. Pizzoccaro, J. Vezzani, M. Reinholdt, P. Gaveau et al., , vol.6, pp.48-61, 2016.

D. Berthomieu, C. Gervais, G. Renaudin, M. Reinholdt, S. Sene et al., Coordination polymers based on alkylboronate ligands: synthesis, characterization, and computational modelling, Eur. J. Inorg. Chem, pp.1182-1191, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01175713

M. Reinholdt, J. Croissant, L. Di-carlo, D. Granier, P. Gaveau et al., Synthesis and characterization of crystalline structures based on phenylboronate ligands bound to alkaline earth cations, Inorg. Chem, vol.50, pp.7802-7810, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00615204

S. Ding and W. Wang, Covalent organic frameworks (COFs): from design to applications, Chem. Soc. Rev, vol.42, pp.548-568, 2013.

N. S. Lekshmi and V. R. Pedireddi, First study of metal hybrids of boronic acis : Second sphere coordination networks in the structures of 4-carboxyphenylboronic acid with some transition metal ions, Inorg. Chem, vol.45, pp.2400-2402, 2006.

A. Abdallah, S. Freslon, X. Fan, A. Rojo, C. Daiguebonne et al., Lanthanide based coordination polymers with 1,4 carboxyphenylboronic ligand: multi emissive compounds for multi sensitive luminescent thermometric probes, Inorg. Chem, vol.58, pp.462-475, 2019.

X. Fan, S. Freslon, C. Daiguebonne, L. Le-polles, G. Calvez et al., A family of lanthanide based coordination polymers with boronic acid as ligand, Inorg. Chem, vol.54, pp.5534-5546, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01153399

Z. Yang, M. M. Wang, X. Wang, and X. Yin, Boric-acid-functional lanthanide metal?organic frameworks for selective ratiometric fluorescence detection of fluoride ions, Anal. Chem, vol.89, pp.1930-1936, 2017.

J. F. Desreux, Lanthanide Probes in Life, p.43, 1989.

W. Kraus and G. Nolze, POWDER CELL -A program for the representation and manipulation of crystal structures and calculation of the resulting X-ray powder patterns, J. Appl. Crystallogr, vol.29, pp.301-303, 1996.

T. Roisnel and J. Rodriguez-carjaval, A Window Tool for Powder Diffraction Patterns Analysis, J. Mater. Sci. Forum, vol.378, pp.118-123, 2001.

T. Roisnel and J. Rodriguez-carjaval, WinPLOTR : a windows tool for powder diffraction pattern analysis, Proceedings of the Seventh European Powder Diffraction Conference, pp.118-123, 2000.

A. Altomare, M. C. Burla, M. Camalli, B. Carrozzini, G. Cascarano et al., EXPO: a program for full powder pattern decomposition and crystal structure solution, Macromol. Crystallogr. B, vol.32, pp.319-343, 1997.

L. J. Farrugia, WinGX and ORTEP for Windows: an update, J. Appl. Crystallogr, vol.45, pp.849-854, 2012.

L. J. Farrugia, WinGX suite for smallmolecule single-crystal crystallography, J. Appl. Crystallogr, vol.32, pp.837-838, 1999.

P. Sluis and A. L. Spek, BYPASS: an Effective method for the refinement of crystal structures containing disordered solvent regions, Acta Crystallogr. A, vol.46, pp.194-201, 1990.

A. S. Chauvin, F. Gumy, D. Imbert, and J. C. Bünzli, Europium and terbium tris(dipicolinate) as secondary standards for quantum yield determination, Spectrosc Lett, vol.37, pp.512-532, 2004.

A. Aebischer, F. Gumy, and J. C. Bünzli, Intrinsic quantum yields and radiative lifetimes of lanthanide tris(dipicolinates), Phys Chem Chem Phys, vol.11, pp.1346-1353, 2009.

F. N. Shi, L. Cunha-silva, T. Trindade, F. A. Paz, and J. Rocha, 3D lanthanide organic frameworks based on di-, tetra-, and hexameric clusters, Cryst. Growth Des, vol.9, pp.2098-2109, 2009.

L. Prodi, M. Maestri, R. Ziessel, and V. Balzani, Luminescent Eu 3+ , Tb 3+ and Gd 3+ complexes of a branched triazacyclononane ligand containing three 2,2'bipyridine units, Inorg. Chem, vol.30, pp.3798-3802, 1991.

J. C. Bünzli, S. V. Eliseeva, E. B. Van-der-tol, H. J. Van-ramesdok, J. W. Verhoeven et al., Tetraazatriphenylenes as Extremely Efficient Antenna Chromophoresfor Luminescent Lanthanide Ions, Chem. -Eur. J, vol.7, pp.2315-2322, 1998.

F. J. Steemers, W. Verboom, D. N. Reinhoudt, E. B. Van-der-tol, and J. W. Verhoeven, New sensitizer-modified calix[4]arenes enabling Near-UV Excitation of complexed luminescent lanthanide ions, J. Am. Chem. Soc, vol.117, pp.9408-9414, 1995.

S. I. Weissman, Intramolecular energy transfer -The fluorescence of complexes of europium, J. Chem Phys, vol.10, pp.214-217, 1942.

H. Guo, F. He, B. Gu, L. Liang, and J. C. Smith, Time-dependent density functionnal theory assesment of UV absorption of benzoic derivatives, The Journal of Physical Chemistry A, vol.116, pp.11870-11879, 2012.

A. U. Acuna, A. Ceballos, and M. J. Molera, Luminescence of benzoic acid and methyl nenzoate at 77K, Journal of the Chemical Society Faraday Transactions II, pp.1469-1471, 1975.

M. Latva, H. Takalo, V. Mukkala, C. Matachescu, J. C. Rodriguez-ubis et al., Correlation between the lowest triplet state energy level of the ligand and lanthanide luminescence quantum yields, J. Lumin, vol.75, pp.149-169, 1997.

A. D'aléo, F. Pointillart, L. Ouahab, C. Andraud, and O. Maury, Charge transfer excited states sensitization of lanthanide emitting from the visible to near infra red, Coord. Chem. Rev, vol.256, pp.1604-1620, 2012.

S. Freslon, Y. Luo, G. Calvez, C. Daiguebonne, O. Guillou et al., Influence of photo-induced electron transfer on lanthanide-based coordination polymers luminescence : A comparison between two pseudo-isoreticular molecular networks, Inorg. Chem, vol.53, pp.1217-1228, 2014.

X. Fan, S. Freslon, C. Daiguebonne, G. Calvez, L. Le-polles et al., Heteronuclear lanthanide-based coordination polymers exhibiting tunable multiple emission spectra, J. Mater. Chem. C, pp.5510-5525, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01016002

C. Galaup, J. Couchet, S. Bedel, P. Tisnès, and C. Picard, Direct access to terpyridinecontaining polyazamacrocycles as photosensitizing ligands for Eu(III) luminescence in aqueous media, J. Org. Chem, vol.70, pp.2274-2284, 2005.

M. D. Ward, Transition metal sensitized near infrared luminescence from lanthanide in d-f heteronuclear arrays, Coord. Chem. Rev, vol.251, pp.1663-1677, 2007.

C. Benelli and D. Gatteschi, Introduction to Molecular Magnetism: From Transition Metals to Lanthanides, 2015.

F. Habib and M. Murugesu, Lessons learned from dinuclear lanthanide nan_magnets, Chem. Soc. Rev, vol.42, pp.3278-3288, 2013.

M. Perfetti, M. Gysler, Y. Rechkemmer-patalen, P. Zhang, H. Tastan et al., Determination of the electronic structure of a dinuclear dysprosium single molecule magnet without symmetry idealization, Chem. Sci, vol.10, pp.2101-2110, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02324547

M. J. Giansiracusa, E. Moreno-pineda, R. Hussain, R. Marx, M. Martinez-prada et al., Measurements of magnetic exchange in asymmetric lanthanide dimetallics: Toward a transferable theoritical framework, J. Am. Chem. Soc, vol.140, pp.2504-2513, 2018.

X. Yi, F. Pointillart, B. Le-guennic, J. Jung, C. Daiguebonne et al., Rational engineering of dimeric Dy-based single molecule magnet for surface grafting, Polyhedron, vol.164, pp.41-47, 2019.

G. Huang, X. Yi, J. Jung, O. Guillou, O. Cador et al., Optimization of magnetic relaxation and isotopic enrichment in DyIII single molecule magnets, Eur. J. Inorg. Chem, pp.326-332, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01713498

I. Cimatti, X. Yi, R. Sessoli, M. Puget, B. Le-guennic et al., Chemical tailoring of single molecule magnet behavior in films of Dy(III) dimers, Applied Surface Science, pp.7-14, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01655640

X. Yi, G. Calvez, C. Daiguebonne, O. Guillou, and K. Bernot, Rational organization of lanthanidebased SMMs dimers into three dimensional networks, Inorg. Chem, vol.54, pp.5213-5219, 2015.

X. Yi, K. Bernot, F. Pointillart, G. Poneti, G. Calvez et al., A Luminescent and Sublimable DyIII-Based Single-Molecule Magnet, Chem. -Eur. J, vol.18, pp.11379-11387, 2012.

S. Alvarez, Polyhedra in (inorganic) chemistry. Dalton Trans, pp.2209-2233, 2005.

S. Alvarez, P. Alemany, D. Casanova, J. Cirera, M. Llunell et al., Shape maps and polyhedral interconversion paths in transition metal chemistry, Coord. Chem. Rev, vol.249, pp.1693-1708, 2005.

N. F. Chilton, D. Collison, E. J. Mcinnes, R. E. Winpenny, and A. Soncini, An electrostatic model for the determination of magnetic anisotropy in dysprosium complexes, Nat Commun, p.4, 2013.

J. Jung, F. Le-natur, O. Cador, F. Pointillart, G. Calvez et al., Experimental and theoritical evidences that electrostatics governs easy axis orientation in DyIII-based molecular chains, Chem. Comm, vol.50, pp.13346-13348, 2014.

S. Jiang and S. Qin, Prediction of the quantisized axis of rare earth ions: the electrostatic model with displaced point charges, Inorg. Chem. Front, vol.2, pp.613-619, 2015.

H. Bolvin, R. Alessandri, H. Zulfikri, and J. Autschbach, Crystal field in rare earth complexes: from electrostatics to bonding, Chem. -Eur. J, vol.24, pp.5538-5550, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01792980

J. Jung, X. Yi, G. Huang, G. Calvez, C. Daiguebonne et al., Analysis of the electrostatics in DyIII single molecule magnet: the case od Dy(Murex) 3 . Dalton Trans, vol.44, pp.18270-18275, 2015.

K. S. Cole and R. H. Cole, Dispersion and absorption in dielectrics I. Alternating current characteristics, Journal of Chemical Physics, vol.9, pp.341-351, 1941.