Abstract
Three charge transfer (CT) salts, [MV(Ag2X4)]n (MV2+ = N,N′-dimethyl-4,4′-bipyridinium, X = Cl (1), Br (2)) and [MV(Ag2I4)∙H2O]n (3) have been synthesized by using MV2+ as electron acceptor and different haloargentates as electron donor. Notably, the structural and optical characterization for three hybrids reveal halogen-dependent intermolecular CT band (estimated band gaps 3.0, 2.79, and 2.27 eV respectively) and consequent resulted thermochromic behaviors (inactive for 1 and 2 and active for 3).
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References
R. Peng, M. Li, and D. Li (2010). Coord. Chem. Rev. 254, 1.
C. H. Arnby, S. Jagner, and I. Dance (2004). CrystEngComm 6, 257.
L. M. Wu, X. T. Wu, and L. Chen (2009). Coord. Chem. Rev. 253, 2787.
U. Englert (2010). Coord. Chem. Rev. 254, 537.
R. Meijboom, R. J. Bowen, and S. J. B. Price (2009). Coord. Chem. Rev. 253, 325.
P. M. Graham and R. D. Pike (2000). Inorg. Chem. 39, 5121.
W. H. Bi, N. Louvain, N. Mercier, J. Luc, I. Rau, F. Kajzar, and B. Sahraoui (2008). Adv. Mater. 20, 1013.
W. S. Yang, J. H. Noh, N. J. Jeon, Y. C. Kim, S. Ryu, J. Seo, and S. Seok (2015). Science 348, 1234.
H. H. Li, Z. R. Chen, L. G. Sun, Z. X. Lian, X. B. Chen, J. B. Li, and J. Q. Li (2010). Cryst. Growth Des. 10, 1068.
S. Sourisseau, N. Louvain, W. H. Bi, N. Mercier, D. Rondeau, F. Boucher, J. Y. Buzare, and C. Legein (2007). Chem. Mater. 19, 600.
N. Leblanc, N. Mercier, L. Zorina, S. Simonov, P. Auban-Senzier, and C. Pasquier (2011). J. Am. Chem. Soc. 133, 14924.
X. W. Lei, C. Y. Yue, L. J. Feng, Y. F. Han, R. R. Meng, J. T. Yang, H. Ding, C. S. Gao, and C. Y. Wang (2016). CrystEngComm 18, 427.
X. W. Lei, C. Y. Yue, J. Q. Zhao, Y. F. Han, J. T. Yang, R. R. Meng, C. S. Gao, H. Ding, C. Y. Wang, W. D. Chen, and M. C. Hong (2015). Inorg. Chem. 54, 10593.
W. Lei, C. Y. Yue, J. Q. Zhao, Y. F. Han, Z. R. Ba, C. Wang, X. Y. Liu, Y. P. Gong, and X. Y. Liu (2015). Eur. J. Inorg. Chem. 2015, 4412.
T. Y. Chen, L. Shi, H. Yang, X. M. Ren, C. Xiao, and W. Q. Jin (2016). Inorg. Chem. 55, 1230.
Y. Z. Qiao, W. Z. Fu, J. M. Yue, X. C. Liu, Y. Y. Niu, and H. W. Hou (2012). CrystEngComm 14, 3241.
X. W. Lei, C. Y. Yue, J. Q. Zhao, Y. F. Han, J. T. Yang, R. R. Meng, C. S. Gao, H. Ding, C. Y. Wang, W. D. Chen, and M. C. Hong (2015). Inorg. Chem. 54, 10593.
H. Chan, Y. Chen, M. Dai, C. N. Liu, H. F. Wang, Z. G. Ren, Z. J. Huang, C. Y. Ni, and J. P. Lang (2012). CrystEngComm 14, 466.
S. Mishra, E. Jeanneau, G. Ledouxc, and S. Daniele (2009). Dalton Trans. 4954.
S. Mishra, E. Jeanneau, S. Daniele, and G. Ledoux (2008). Dalton Trans. 28, 6296.
S. Mishra, E. Jeanneau, G. Ledoux, and S. Daniele (2014). Inorg. Chem. 53, 11721.
R. G. Lin, G. Xu, M. S. Wang, G. Lu, P. X. Li, and G. C. Guo (2013). Inorg. Chem. 52, 1199.
R. G. Lin, G. Xu, G. Lu, M. S. Wang, P. X. Li, and G. C. Guo (2014). Inorg. Chem. 53, 5538.
M. Li, L. J. Yuan, and Z. Y. Fu (2015). Inorg. Chem. Commun. 57, 58.
J. B. Wu, C. Y. Tao, Y. Li, Y. Yan, J. Y. Li, and J. H. Yu (2014). Chem. Sci. 5, 4237.
P. C. Jhang, N. T. Chuang, and S. L. Wang (2010). Angew. Chem. Int. Ed. 49, 4200.
Y. R. Qiao, P. F. Hao, and Y. L. Fu (2015). Inorg. Chem. 54, 8705.
G. N. Liu, J. R. Shi, X. J. Han, X. Zhang, K. Li, J. Li, T. Zhang, Q. S. Liu, Z. W. Zhang, and C. C. Li (2015). Dalton Trans. 44, 12561.
T. L. Yu, J. J. Shen, Y. L. Wang, and Y. L. Fu (2015). Eur. J. Inorg. Chem. 2015, 1989.
H. J. Du, W. L. Zhang, C. H. Wang, Y. Y. Niu, and H. W. Hou (2016). Dalton Trans. 45, 2624.
Z. J. Zhang, G. C. Guo, G. Xu, M. L. Fu, J. P. Zou, and J. S. Huang (2006). Inorg. Chem. 45, 10028.
M. A. White and M. J. LeBlanc (1999). Chem. Educ. 76, 1201.
D. C. MacLaren and M. A. White (2003). J. Mater. Chem. 13, 1695.
D. Haristoy and D. Tsiourvas (2003). Chem. Mater. 15, 2079.
C. G. Bazuin, D. Guillon, A. Skoulios, and R. J. Zana (1986). Phys. (Paris) 47, 927.
K. Binnemans (2005). Chem. Rev. 105, 4148.
J. S. Moore and S. I. Stupp (1986). Macromolecules 19, 1815.
E. M. Kosower (1958). J. Am. Chem. Soc. 80, 3253.
J. T. Sampanthar, K. G. Neoh, S. W. Ng, E. T. Kang, and K. L. Tan (2000). Adv. Mater. 12, 1536.
D. Cummins, G. Boschloo, M. Ryan, D. Corr, S. N. Rao, and D. J. Fitzmaurice (2000). Phys. Chem. B. 104, 11449.
T. L. Yu, L. An, L. Zhang, J. J. Shen, Y. B. Fu, and Y. L. Fu (2014). Cryst. Growth Des. 14, 3875.
J. J. Shen, C. F. Zhang, T. L. Yu, L. An, and Y. L. Fu (2014). Cryst. Growth Des. 14, 6337.
C. F. Zhang, J. J. Shen, Q. Guan, T. L. Yu, and Y. L. Fu (2015). Solid State Sci. 46, 14.
M. A. Tershansy, A. M. Goforth, J. R. Gardinier, M. D. Smith, L. Peterson Jr., and H. C. Zur Loye (2007). Solid State Sci. 9, 410.
A. M. Goforth, M. A. Tershansy, M. D. Smith, L. Peterson Jr., J. G. Kelley, W. J. I. DeBenedetti, and H. C. Zur Loye (2011). J. Am. Chem. Soc. 133, 603.
A. Lemmerer and D. G. Billing (2012). Dalton Trans. 41, 1146.
D. G. Billing and A. Lemmerer (2008). New J. Chem. 32, 1736.
M. C. Burns, M. A. Tershansy, J. M. Ellsworth, Z. Khaliq, L. Peterson Jr., M. D. Smith, and H. C. Zur Loye, (2006). Inorg. Chem. 45, 10437.
H. X. Guo, Y. Zhang, X. Z. Li, and W. Weng (2010). Inorg. Chem. Commun. 13, 425.
R. Kannappan, C. Bucher, E. S. Aman, J. C. Moutet, A. Milet, M. Oltean, E. Metay, S. P. Rostaing, M. Lemairec, and C. Chaix (2010). New J. Chem. 34, 1373.
N. Mercier (2013). Eur. J. Inorg. Chem. 2013, 19.
P. X. Li, M. S. Wang, L. Z. Cai, G. E. Wang, and G. C. Guo (2015). J. Mater. Chem. C 3, 253.
M. Suzuki, M. Kimura, K. Hanabusa, and H. Shirai (1997). Chem. Commun. 21, 2061.
P. AbetaIyere (1996). Synth. React. Inorg. Met. Org. Chem. 26, (7), 1231.
T. Kinuta, T. Sato, N. Tajima, R. Kuroda, Y. Matsubara, and Y. Imai (2010). J. Mol. Struct. 982, 45.
H. H. Li, P. Wang, X. H. Chao, C. C. Lin, A. W. Gong, and Z. R. Chen (2015). J. Clust. Sci. 26, 851.
Y. X. Zhao and K. Zhu (2014). J. Am. Chem. Soc. 136, 12241.
N. Leblanc, M. Allain, N. Mercier, and L. Sanguinet (2011). Cryst. Growth Des. 11, 2064.
X. W. Lei, C. Y. Yue, L. J. Feng, Y. F. Han, R. R. Meng, J. T. Yang, H. Ding, C. S. Gao, and C. Y. Wang (2016). CrystEngComm 18, 427.
G. Kotiim Reflectance Spectroscopy (Springer, New York, 1969).
O. Schevciw and W. B. White (1983). Mater. Res. Bull. 18, 1059.
A. J. Macfarlane and R. J. P. Williams (1969). J. Chem. Soc. A. 1517.
G. M. Sheldrick SHELXS-97, A Program for X-ray Crystal Structure Solution, and SHELXL-97. A Program for X-ray Structure Refinement (Göttingen University, Germany, 1997).
H. H. Li, S. Y. Chen, H. J. Dong, Y. L. Wu, and Z. R. Chen (2011). J. Chem. Crystallogr. 41, 858.
X. L. Sun, Q. Y. Zhu, W. Q. Mu, L. W. Qian, L. Yu, J. Wu, G. Q. Bian, and J. Dai (2014). Dalton Trans. 43, 12582.
J. H. Russell and S. C. Wallwork (1972). Acta Cryst. B28, 1527.
CrysAlisPro, version 1.171.37.33, release 27-03-2014 CrysAlis171 .NET (Agilent Technologies).
B. Han, J. J. Lu, and J. K. Kochi (2008). Cryst. Growth Des. 8, 1327.
C. K. Prout and J. D. Wright (1968). Angew. Chem. Int. Ed. 7, 659.
G. N. Liu, L. L. Liu, Y. N. Chu, Y. Q. Sun, Z. W. Zhang, and C. C. Li (2015). Eur. J. Inorg. Chem. 2015, 478.
T. L. Yu, J. J. Shen, Y. B. Fu, and Y. L. Fu (2014). CrystEngComm 16, 5280.
J. K. Sun, P. Wang, Q. X. Yao, Y. J. Chen, Z. H. Li, Y. F. Zhang, L. M. Wu, and J. Zhang (2012). J. Mater. Chem. 22, 12212.
L. N. Xiao, Y. Y. Hu, L. M. Wang, Y. Wang, J. N. Xu, H. Ding, X. B. Cui, and J. Q. Xu (2012). CrystEngComm 14, 8589.
Acknowledgments
We thank the National Natural Science Foundation of China (No. 21171110) and the Research Fund for the Doctoral Program of Higher Education of China (No. 20131404110001).
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Zhu, Y., Yu, T., Hao, P. et al. Halogen-Dependent Thermochromic Properties in Three Methyl-Viologen/Haloargentate Charge Transfer (CT) Salts. J Clust Sci 27, 1283–1291 (2016). https://doi.org/10.1007/s10876-016-0999-6
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DOI: https://doi.org/10.1007/s10876-016-0999-6