[1] Moore C., Pressman B.C., Mechanism of Action of Valinomycin on Mitochondria, Biochem. biophys. Res. Commun., 15, p. 562 (1964).
[2] Tuemmler B., Maass G., Weber E., Wehner W., Voegtle, F., Noncyclic Crown-Type Polyethers, Pyridinophane Cryptands, and Their Alkali Metal Ion Complexes: Synthesis, Complex Stability, and Kinetics, J. Am. Chem. Soc., 99, p. 4683 (1977).
[3] Tummler B., Maass G., Vogtle F., Sieger H., Heimann U., Weber E., Open-Chain Polyethers. Influence of Aromatic Donor End Groups on Thermodynamics and Kinetics of Alkali Metal Ion Complex Formation, J. Amer. Chem. Soc., 101, p. 2588 (1979).
[4] Madrakian T., Shamsipur M., Spectrophotometric Study of Some Transition Metal Complexes with Tetraethyleneglycol-bis-(8-quinolyl) Ether in Dimethylsulfoxide Solution Using Murexide as a Metallochromic Indicator, Polish J. Chem.,73, p. 1405 (1999).
[5] Rofouei M.K., Ahmadalinezhad A., Taghdiri M., Complexation Thermodynamics of Some Alkali-Metal Cations with 1,13-Bis(8-Quinolyl)-1,4,7,10,13-Pentaoxatridecane in Acetonitrile,J. Incl. Phenom., 58, p. 377 (2007).
[6] Payehghadr M., Zamani A., Salehi Sadaghiani A., Taghdiri M., Spectrophotometric and Conductometric Studies of the Thermodynamics Complexation of Zn2+, Ni2+, Co2+, Pb2+ and Cu2+ Ions with 1,13-Bis(8-Quinolyl)-1,4,7,10,13-Pentaoxatridecane Ligand in Acetonitrile Solution., J. Incl. Phenom.,62, p. 255 (2008).
[7] Greenberg M.S., Popov A.I., Spectroscopic Studies of Ionic Solvation- XVII Studies of Preferential Solvation of the Sodium Ion in Nonaqueous Mixed Solvents by Sodium-23 Nuclear Magnetic Resonance, Spectrochim. Acta Part A, 31, p. 697 (1975).
[8] Wu Y.C., Koch W.F., Absolute Determination of Electrolytic Conductivity for Primary sStandard KCl Solutions from 0 to 50ºC, J. Solution Chem., 20, p. 391 (1991).
[9] Amini M.K., Shamsipur M., Complex Formation of Silver, Thallium and Alkali Cations with Dibenzo-30-Crown-10 in Some Non-Aqueous Solutions, Inorg. Chim. Acta., 183, p. 65 (1991).
[10] Amini M.K., Shamsipur M., Complex Formation of Hydronium Ion with Several Crown Ethers in 1,2-Dichloroethane, Acetonitrile, and Nitrobenzene Solutions, J. Solution Chem., 21, p. 275 (1992).
[11] Ganjali M.R., Rouhollahi A., Moghimi, A., Shamsipur, M., Conductance Study of Alkali Metal Complexes with 4¢-Carboxy-Benzo-24-Crown-8 and 4¢-Amido-Benzo-24-Crown-8 in Nitromethane, Acetonitrile and Dimethyle Formamide Solutions, Pol. J. Chem., 70, p. 1172 (1996).
[12] Weber E., Toner J.L., Goldberg I., Voegtle F., Laidler D.A., Stoddart J.F., Bartsch R.A., Liotta, C.L., "Crown Ethers and Analogs". Wiley (1989).
[13] Pourghobadi Z., Seyyed-Majidi F., Daghighi-Asli M., Parsa F., Moghimi A., Ganjali M.R., Aghabozorgand H., Shamsipur M., Synthesis of a New Triazine Derived Macrocycle and a Thermodynamic Study of Its Complexes with Some Transition and Heavy Metal Ions in Acetonitrile Solution, Pol. J. Chem., 74, p. 837 (2000).
[14] Takeda Y., Thermodynamic Study for Dibenzo-24-Crown-8 Complexes with Alkali Metal Ions in Nonaqueous Solvents, Bull. Chem. Soc. Jpn., 56, p. 3600 (1983).
[15] Gutmann V., "The Donor-Acceptor Approach to Molecular Interactions", Plenum,New York, (1978).
[16] Taghdiri M., Rofouei M.K., Shamsipur M., Conductance Study of the Thermodynamics of Complexation of K+, Rb+, Cs+ and Tl+ Ions with Dibenzo-24-Crown-8 in Binary Acetonitrile-Nitromethane Mixtures, J. Incl. Phenom., 58, p. 181 (2007).