K. X. Wang and J. S. Chen, Acc. Chem. Res, pp.44-531, 2011.

M. B. Andrews and C. L. Cahill, Chem. Rev, p.1121, 2013.

T. Loiseau, I. Mihalcea, N. Henry, and C. Volkringer, Coord. Chem. Rev, vol.69, pp.266-267, 2014.

J. Su, J. S. Chen, . Struct, and . Bond, , p.265, 2015.

P. Thuéry, J. Harrowfield, and D. Trans, , vol.46, p.13660, 2017.

I. Mihalcea, N. Henry, T. Bousquet, C. Volkringer, and T. Loiseau, Cryst. Growth Des, p.4641, 2012.

P. M. Cantos, L. J. Jouffret, R. E. Wilson, P. C. Burns, and C. L. Cahill, Inorg. Chem, p.9487, 2013.

P. Thuéry and J. Harrowfield, Inorg. Chem, p.8093, 2015.

E. A. Dolgopolova, O. A. Ejegbavwo, C. R. Martin, M. D. Smith, W. Setyawan et al.,

C. H. Karakalos, H. C. Henager, N. B. Zur-loye, and . Shustova, J. Am. Chem. Soc, p.16852, 2017.

S. L. Hanna, X. Zhang, K. I. Otake, R. J. Drout, P. Li et al., Cryst. Growth Des, vol.19, p.506, 2019.

R. Zhao, L. Mei, L. Wang, Z. F. Chai, and W. Q. Shi, Inorg. Chem, p.10125, 2016.

P. Thuéry and J. Harrowfield, Cryst. Growth Des, vol.17, 2017.

P. Thuéry and J. Harrowfield, Inorg. Chem, p.6296, 2015.

Z. R. Qu, Wuji Huaxue Xuebao (Chin, J. Inorg. Chem.), p.2123, 2007.

P. Thuéry and B. Masci, CrystEngComm, vol.14, p.131, 2012.

R. Zhao, L. Mei, K. Q. Hu, L. Wang, Z. F. Chai et al., Eur. J. Inorg. Chem, p.1472, 2017.

P. Thuéry and J. Harrowfield, Cryst. Growth Des, vol.18, p.5512, 2018.

P. Thuéry, Y. Atoini, and J. Harrowfield, Inorg. Chem, p.567, 2019.

R. W. Hooft, . Collect, and B. V. Nonius, , 1998.

Z. Otwinowski and W. Minor, Methods Enzymol, p.307, 1997.

G. M. Sheldrick, Acta Crystallogr., Sect. A, vol.71, p.3, 2015.

G. M. Sheldrick, Acta Crystallogr., Sect. C, vol.71, p.3, 2015.

L. J. Farrugia, J. Appl. Crystallogr, p.849, 2012.

K. Momma and F. Izumi, J. Appl. Crystallogr, 1272.

V. A. Blatov, A. P. Shevchenko, and D. M. Proserpio, Cryst. Growth Des, p.3576, 2014.

M. A. Spackman and D. Jayatilaka, CrystEngComm, 2009.

S. K. Wolff, D. J. Grimwood, J. J. Mckinnon, M. J. Turner, D. Jayatilaka et al., , 2012.

R. Taylor and O. Kennard, J. Am. Chem. Soc, vol.104, p.5063, 1982.

G. R. Desiraju, Acc. Chem. Res, p.441, 1996.

A. L. Spek, Acta Crystallogr., Sect. D, p.148, 2009.

P. Thuéry and J. Harrowfield, CrystEngComm, vol.18, p.3905, 2016.

S. W. An, L. Mei, C. Z. Wang, C. Q. Xia, Z. F. Chai et al., Chem. Commun, p.8978, 2015.

S. W. An, L. Mei, K. Q. Hu, F. Z. Li, C. Q. Xia et al., Inorg. Chem, vol.58, p.31, 2019.

M. C. Etter, J. C. Macdonald, and J. Bernstein, Acta Crystallogr., Sect. B, vol.46, p.256, 1990.

J. Bernstein, R. E. Davis, L. Shimoni, and N. L. Chang, Angew. Chem. Int. Ed, p.1555, 1995.

C. R. Groom, I. J. Bruno, M. P. Lightfoot, and S. C. Ward, Acta Crystallogr., Sect. B, vol.72, p.171, 2016.

R. Taylor and P. A. Wood, Chem. Rev, p.9427, 2019.

A. Whiteside, S. S. Xantheas, and M. Gutowski, Chem. Eur. J, 2011.

T. G. Mitina and V. A. Blatov, Cryst. Growth Des, p.1655, 2013.

P. Thuéry, Inorg. Chem, p.435, 2013.

P. Thuéry and J. Harrowfield, Inorg. Chem, p.1455, 2017.

P. Thuéry and J. Harrowfield, Eur. J. Inorg. Chem, p.5451, 2017.

P. Thuéry, Y. Atoini, and J. Harrowfield, Inorg. Chem, p.6283, 2018.

P. Thuéry, Y. Atoini, and J. Harrowfield, Dalton Trans, p.8756, 2019.

A. Brachmann, G. Geipel, G. Bernhard, and H. Nitsche, Radiochim. Acta, p.147, 2002.

P. Thuéry, Y. Atoini, and J. Harrowfield, Inorg. Chem, vol.870, p.58, 2019.

H. D. Burrows, S. J. Formosinho, M. Da, G. Miguel, and F. Pinto-coelho, J. Chem. Soc., Faraday Trans. 1, vol.72, p.163, 1976.

A. T. Kerr and C. L. Cahill, Cryst. Growth Des, p.14, 1914.

A. T. Kerr and C. L. Cahill, Cryst. Growth Des, p.4094, 2014.

J. A. Ridenour, M. M. Pyrch, Z. J. Manning, J. A. Bertke, and C. L. Cahill, Acta Crystallogr, p.588, 2017.

A. T. Kerr, J. A. Ridenour, A. A. Noring, and C. L. Cahill, Inorg. Chim. Acta, p.204, 2019.

G. E. Gomez, J. A. Ridenour, N. M. Byrne, A. P. Shevchenko, and C. L. Cahill, Inorg. Chem, p.7243, 2019.

P. Thuéry and J. Harrowfield, Inorg. Chem, vol.56, 2017.

J. Xie, Y. Wang, W. Liu, X. Lin, L. Chen et al., Angew. Chem. Int. Ed, p.7500, 2017.

Y. Wang, X. Yin, W. Liu, J. Xie, J. Chen et al., Angew. Chem. Int. Ed, vol.57, p.33, 2018.

, For Table of Contents Use Only Zero-, mono-and diperiodic uranyl ion complexes with the diphenate dianion: influences of transition metal ion coordination and differential U VI chelation

P. Thuéry, Youssef Atoini and Jack Harrowfield Diphenate complexes with uranyl cations are generally of low periodicity (0 or 1), but for one 2-periodic uranyl-Cu II species