L. Bogani, A. Vindigni, R. Sessoli, and D. Gatteschi, Single-Chain Magnets, J. Mater. Chem, vol.18, pp.4750-4758, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00193732

D. Gatteschi and A. Vindigni, Single chain magnets: where to from here? Molecular Magnets: Physics and Applications, pp.191-220, 2014.

R. Coldea, D. A. Tennant, E. M. Wheeler, E. Wawrzynska, D. Prabhakaran et al., Quantum criticality in an Ising chain: experimental evidence of emergent E8 symmetry, Science, vol.327, pp.177-180, 2010.

H. Kobayashi and T. Haseda, Metamagnetic Behavior of Ferromagnetic Linear Chain in CoCl2.2H2O, J. Phys. Soc. Japan, vol.19, p.765, 1964.

M. Lenertz, J. Alaria, D. Stoeffler, S. Colis, A. Dinia et al., Magnetic Structure of Ground and Field Induced Ordered States of Low Dimensional ?-CoV2O6, Phys. Rev, vol.86, p.214428, 2012.

F. Wallington, A. M. Arevalo-lopez, J. W. Taylor, J. R. Stewart, V. Garcia-sakai et al., Spin-orbit transition in ? and ?-CoV2O6, Phys. Rev, vol.92, p.125116, 2015.

M. Markkula, A. M. Arevalo-lopez, and J. P. Attfield, Field-induced spin orders in monoclinic CoV2O6, Phys. Rev, vol.86, p.134401, 2012.

E. Canévet, B. Grenier, M. Klanj?ek, C. Berthier, M. Horvati? et al., Field-induced magnetic behavior in quasi-one-dimensional Ising-like antiferromagnet BaCo2V2O8: A single-crystal neutron diffraction study, Phys. Rev, vol.87, p.54408, 2013.

R. David, H. Kabbour, A. Pautrat, and O. Mentré, Puzzling Polymorphism of Layered Ba(CoPO4)2, Inorg. Chem, vol.52, pp.8732-8737, 2013.

R. David, H. Kabbour, S. Colis, A. Pautrat, E. Suard et al., Magnetization Steps Promoted by Structural Modulation in BaCoX2O7 (X=As, P), J. Phys. Chem. C, vol.117, pp.18190-18198, 2013.

R. David, H. Kabbour, S. Colis, and O. Mentré, Slow Spin Dynamics between Ferromagnetic Chains in a Pure-Inorganic Framework, Inorg. Chem, vol.52, pp.13742-13750, 2013.

R. David, A. Pautrat, D. Filimonov, H. Kabbour, H. Vezin et al., Across the Structural Re-Entrant Transition in BaFe2(PO4)2: Influence of the TwoDimensional Ferromagnetism, J. Am. Chem. Soc, vol.135, pp.13023-13029, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00861272

H. Kabbour, R. David, A. Pautrat, H. J. Koo, M. H. Whangbo et al., A Genuine Two-Dimensional Ising Ferromagnet with Magnetically Driven Re-entrant Transition Angew, Chem, vol.51, pp.11745-11749, 2012.

S. L. Wang, J. C. Horng, Y. H. Lee, and . M2as2o7, Hydrous Diarsenates with an Intersecting Tunnel Structure, H2O)2 (M = Co or Ni), vol.0, pp.1825-1829, 1994.

H. Effenberger and F. Pertlik, Comparison of the Crystal Structures of Co2(X2O7)2.2H2O, X= P and As. Monatshefte fur Chemie, vol.124, pp.381-389, 1993.

, SAINT: Area-Detector Integration Software, 1995.

, SADABS: Area-Detector Absorption Correction, 1996.

L. Palatinus and G. Chapuis, SUPERFLIP -a computer program for the solution of crystal structures by charge flipping in arbitrary dimensions, J. Appl. Cryst, vol.40, pp.786-790, 2007.

V. Petricek, M. Dusek, and L. Palatinus, Crystallographic Computing System JANA2006: General features, Z. Kristallogr, vol.229, pp.345-352, 2014.

G. Kresse, Vienna Ab-Initio Simulation Package (VASP), 2012.

G. Kresse and D. Joubert, From Ultrasoft Pseudopotentials to the Projector Augmented Wave Method, Phys. Rev. B, vol.59, pp.1758-1775, 1999.

P. E. Blöchl, Projector Augmented-Wave Method, Phys. Rev. B, vol.50, pp.17953-17979, 1994.

J. P. Perdew, K. Burke, and M. Ernzerhof, Generalized Gradient Approximation Made Simple, Phys. Rev. Lett, vol.77, pp.3865-3868, 1996.

J. Rodriguez-carjaval, Recent advances in magnetic structure determination by neutron powder diffraction, Physica B, p.55, 1993.

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

J. Oka and A. Kawahara, The Structure of Synthetic Dimagnesium Diphosphate(V) Dihydrate. Acta Cryst, vol.38, pp.3-5, 1982.

S. Schneider and R. L. Collin, Crystal Structure of Manganese Pyrophosphate Dihydrate, Mn2P2O7.2H2O, Inorg. Chem, vol.12, pp.2136-2139, 1973.

J. Brugger and P. Berlepsch, Description and crystal structure of fianelite, Mn2V(V,As)O7.2H2O, a new mineral from Fianel, vol.81, pp.1270-1276, 1996.

C. H. Wu, T. C. Chen, and S. L. Wang, Two Hydrous Divalent-Metal Diarsenates, Acta Cryst, vol.52, pp.1326-1329, 1996.

N. Stock, G. D. Stucky, and A. K. Cheetham, Synthesis and Characterization of the Manganese Pyroarsenate Mn2As2O7.2H2O, Z. Naturforsch, vol.56, pp.359-363, 2001.

H. G. Giesber, M. B. Korzenski, W. T. Pennington, and J. W. Kolis, Fe2P2O7(H2O)2. Acta Cryst, vol.56, pp.399-400, 2000.

E. Canévet, B. Grenier, M. Klanj?ek, C. Berthier, M. Horvati? et al., Field-induced magnetic behavior in quasi-one-dimensional Ising-like antiferromagnet BaCo2V2O8: A single-crystal neutron diffraction study, Phys. Rev, vol.87, p.54408, 2013.

M. Mansson, K. Prsa, J. Sugiyama, H. Nozaki, A. Amato et al., Microscopic Magnetic Nature of the Quasi-one-Dimensional Antiferromagnet BaCo2V2O8. Physics Procedia 30, pp.146-150, 2012.

Y. Kawasaki, J. L. Gavilano, L. Keller, J. Schefer, N. B. Christensen et al., Magnetic structure and spin dynamics of the quasi-one-dimensional spin-chain antiferromagnet BaCo2V2O8, Phys. Rev. B, vol.83, p.644, 2011.

Q. Faure, S. Takayoshi, S. Petit, V. Simonet, S. Raymond et al., Topological quantum phase transition in the Ising-like antiferromagnetic spin chain BaCo2V2O8, Nature Physics, vol.14, pp.716-722, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01851332

O. Mentré, H. J. Koo, and M. Whangbo, Investigation of the Vanadyl Bond Ordering and Analysis of the Spin Exchange Interactions in Pb2V3O9 and Pb2As2VO9, Chem. Mater, vol.20, pp.6929-6938, 2008.

N. Stock, G. D. Stucky, and A. K. Cheetham, Synthesis and Characterization of the Manganese Pyroarsenate Mn2As2O7.2H2O, Z. Naturforsch, p.359, 2001.

M. A. Aranda, S. Bruque, and J. P. Attfield, Crystal Structures and Characterization of a New Manganese(III) Arsenate, MnAs04.1.2H20, and Manganese(II) Pyroarsenate Mn2As207, Inorg. Chem, vol.30, p.9, 1991.

M. A. Aranda and S. Bruque, Characterization of Manganese(III) Orthophosphate Hydrate, Inorg. Chem, vol.29, pp.1334-1337, 1990.

A. Assani, M. Saadi, M. Zriouil, and L. El-ammari, Ni2Sr(PO4)22H2O. Acta Cryst, vol.66, pp.86-87, 2010.

A. M. Buckley, S. T. Bramwell, and P. Day, Structural Properties of Transition Metal Pyroarsenates M2As207 (M = Co, vol.86, pp.1-15, 1990.

A. M. Buckley and S. T. Bramwell, The Magnetic Properties and Structures of the Transition Metal Pyroarsenates M2As2O7 (M=Ni, Co, Mn), J. of S. S. Chem, vol.115, pp.229-235, 1995.

M. Weil and B. Stöger, Crystal chemistry of transition metal diarsenates M2As2O7 (M = Mn, Co, Ni, Zn): variants of the thortveitite structure, Acta Cryst, vol.66, pp.603-614, 2010.

T. Dordevic, BaCo2(AsO4)2. Acta Cryst, vol.64, pp.58-59, 2008.

S. Eymond, C. Martin, and A. Durif, Données cristallographiques sur quelques composés isomorphes du monoarseniate de Baryum-Nickel: BaNi2(AsO4)2. Mat, Res. Bull, vol.4, pp.595-600, 1969.

M. H. Whangbo, H. J. Koo, and D. Dai, Spin exchange interactions and magnetic structures of extended magnetic solids with localized spins: theoretical descriptions on formal, quantitative and qualitative levels, Journal of Solid State Chemistry, vol.176, pp.417-481, 2003.

V. M. Kovrugin, E. E. Gordon, E. E. Kasapbasi, M. H. Whangbo, M. Colmont et al., Bonding Scheme, Hydride Character, and Magnetic Paths of (HPO3)2-Versus (SeO3)2-Building Units in Solids, J. Phys. Chem. C, vol.120, pp.1650-1656, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01780499

R. J. Radwanski and Z. Ropka, Orbital and spin moment in CoO, ActaPhysica, pp.3-6, 2009.

T. Yang, J. Ju, G. Li, S. Yang, J. Sun et al., Metamagnetic Interaction between the Zigzag Octahedral Chains, Inorg. Chem, vol.46, pp.2342-2344, 2007.

X. H. Zhang, Z. M. Hao, and X. M. Zhang, Spin Canting and Metamagnetism in the First Hybrid Cobalt-Hypoxanthine Open Framework with umr Topology, Chem. Eur. J, vol.17, pp.5588-5594, 2011.

M. Lee, J. Hwang, E. S. Choi, J. Ma, C. R. Cruz et al., Series of phase transitions and multiferroicity in the quasi-two-dimensional spin-12 triangular-lattice antiferromagnet Ba3CoNb2O9, Phys. Rev. B, p.89, 2014.

A. N. Bogdanov, A. V. Zhuravlev, and U. K. Rößler, Spin-flop transition in uniaxial antiferromagnets: Magnetic phases, reorientation effects, and multidomain states, Phys. Rev. B, vol.75, p.94425, 2007.

A. Fert, P. Carrara, M. C. Lanusse, G. Mischler, and J. P. Redoules, Transition de phase metamagnétique du bromure ferreux, J. Phys. Chem. Solids, vol.34, pp.223-230, 1973.

M. Irfan, S. Azam, S. Hussain, S. Muhammad, and A. G. Al-sehemi, Effect of Coulomb interactions on optoelectronic and magnetic properties of novel A2V2O7 (A= Fe and Co) compounds, Journal of Alloys and Compounds, vol.766, pp.536-545, 2018.

A. V. Palii, O. S. Reu, S. M. Ostrovsky, S. I. Klokishner, B. S. Tsukerblat et al., A Highly Anisotropic Cobalt(II)-Based Single-Chain Magnet: Exploration of Spin Canting in an Antiferromagnetic Array, J. Am. Chem. Soc, vol.130, pp.14729-14738, 2008.

Y. Hamida, D. Danilovic, T. Yuen, K. Li, and J. Li, Magnetic specific heat studies of two Ising spin 1/2 chain systems M(N3)2(bpy), J. of App. Phys, pp.7-332, 2012.

N. Ahmed, A. A. Tsirlin, and R. Nath, Multiple magnetic transitions in the spin-1/2 chain antiferromagnet SrCuTe2O6, Phys. Rev. B, p.214413, 2015.