Abstract
The adsorption properties and acid–base contributions to the surface energy of (E)-N-((E)-3-(4-(dimethylamino)phenyl)allylidene)-4-(4-((E)-((E))-3-(4(dimethylamino)phenyl)allylidene)amino)-3-methylnaphthalen-1-yl)-2-ethylnaphthalen-1-amine which is a new D-π-D Type Schiff base ligand (L) were determined by inverse gas chromatography (IGC) at infinite dilution. The retentions of several organic solvents on L were measured in the temperature range from 40 to 100 °C by IGC. The dispersive component of the surface energy, \( \gamma_{S}^{D} \) of studied adsorbent surface was estimated using retention times of different nonpolar organics in the infinite dilution region. Thermodynamic parameters of adsorption (free energy, \( \Updelta G_{A}^{S} , \) enthalpy, \( \Updelta H_{A}^{S} \) and entrophy, \( \Updelta S_{A}^{S} \)), dispersive components of the surface energies, \( \gamma_{S}^{D} \) and the acid, K A and base, K D constants for the L were calculated. The obtained results proved that IGC is an efficient and successful technique for the characterization of adsorption properties and acid–base quantity of these kinds of materials.
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References
Radecka-Paryzek W (2009) Can J Chemistry Revüe Canadienne De Chimie 87:1–7
Neg NA, Zaki MF (2008) Colloid Surf B 64:179–183
Parekh J, Inamdhar P, Nair R, Baluja S, Chanda S (2005) J Serb Chem Soc 70:1155–1161
Vaghasia Y, Nair R, Soni M, Baluja S, Chanda S (2004) J Serb Chem Soc 69:991–998
Lau KY, Mayr A, Cheung KK (1999) Inorg Chim Acta 285:223–232
Raman N, Muthuraj V, Ravichandran S, Kulandaisamy A (2003) Proceedings of the Indian academy of sciences-chemical sciences 115:161–167
Karaoglan GK, Kiymaz NA, Erden I, Peksel A (2010) J Chem Res S6:340–343. (doi:10.3184/030823410X12759843433884, ISSN: 0308-2342) JCR1000102.indd:340–343 (in press)
Dorris GM, Gray DG (1981) J Chem Soc Faraday Trans 1(77):725–740. doi:10.1039/F19817700725
Cantergiani E, Benczedi D (2002) J Chromatogr A 969:103–110
Andrzejewska E, Voelkel A, Andrzejewski M, Limanowska-Shaw H (2005) Appl Surf Sci 245:135–140
Neves IB, Chabut M, Perruchot C, Chehimi MM, Benzarti K (2004) Appl Surf Sci 238:523–529
Kaya I, Özdemir E (1995) J Macromo Sci Pure A32:377–383
Chehimi MM, Abel ML, Perruchot C, Delamar M, Lascelles SF, Armes SP (1999) Synthetic Met 104:51–59
Yazıcı DT, Askın A, Butun V (2006) Surf Interface Anal 38:561–564
Nardin M, Balard H, Papirer E (1990) Carbon 28:43–48
Papirer E, Brendle E, Ozil F, Balard H (1999) Carbon 37:1265–1274
Cossarutto L, Vagner C, Finqueneisel G, Weber JV, Zimny T (2001) Appl Surf Sci 177:207–211
Blackwell JA (1993) Chromatographia 35:133–138
Donnet JB, Custodero E, Wang TK, Hennebert G (2002) Carbon 40:163–167
Tisserand C, Calvet R, Patry S, Galet L, Dodds JA (2009) Powder Technol 190:53–58
Karaoglan GK, Erden I, Avcıata U (2009) Pol J Chem 83(6):1147–1152. (IDS Number: 471TA, ISSN: 0137-5083)
Santos JMRCA, Guthrie JT (2005) Mat Sci Eng R 50:79–107
Kiselev AV (1965) Discuss Faraday Soc 40:205–218
Dorris GM, Gray DG (1980) J Colloid Interf Sci 77:353–362
Riddle FL, Fowkes FM (1990) J Am Chem Soc 112:3259–3264
Kamdem DP, Bose SK, Luner P (1993) Langmuir 9:3039–3044
Santos JMRCA, Guthrie JT (2005) J Chromatogr A 1070:147–154
Goss KU (1997) J Colloid Interf Sci 190:241–249
Sohn S, Yang S (2003) J Adhes Sci Techno 17(7):903–915
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This research has been supported by Yildiz Technical University Scientific Research Projects Coordination Department.
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Karaoglan, G.K., Sakar, D. Surface Characterization of a Novel D-π-D Type Ligand by IGC at Infinite Dilution. Chromatographia 73, 93–98 (2011). https://doi.org/10.1007/s10337-010-1819-z
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DOI: https://doi.org/10.1007/s10337-010-1819-z