Ahmet Tabak
Recep Tayyip Erdoğan University
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Archive | 2017
Sema Caglar; Esra Dilek; Bulent Caglar; Ekrem Adiguzel; Ersin Temel; Orhan Büyükgüngör; Ahmet Tabak
Related Article: Sema Caglar, Esra Dilek, Bulent Caglar, Ekrem Adiguzel, Ersin Temel, Orhan Buyukgungor, Ahmet Tabak|2016|J.Coord.Chem.|69|3321|doi:10.1080/00958972.2016.1227802
Zeitschrift für Naturforschung A | 2010
Bulent Caglar; B. Afsin; Erdal Eren; Ahmet Tabak; Çağrı Çırak; Osman Cubuk
The intercalation of dimethyl sulphoxide (DMSO), pyridine (Py), ethanolamine (Ea), and Nmethyl formamide (NMF) molecules into the kaolinite interlayers led to an appreciable decrease of 3697 cm−1 of the hydroxyl band. The appearance of the peaks at 3662, 3541, and 3504 cm−1 proved that the DMSO species are intercalated between the kaolinite layers through forming H-bonds with internal-surface hydroxyl groups. The intensities of the 942 and 796 cm-1 bending peaks arising from inner-surface hydroxyls decreased and new vibrational features appeared due to the intercalation of the guest species. The d001 value of pure kaolinite was found at 7.18 A° , and the d001 values were seen at 11.26, 11.62, 10.77, and 10.67 °A for kaolinite-dimethyl sulphoxide (K-DMSO), kaolinite-pyridine (K-Py), kaolinite-ethanolamine (K-EA), and kaolinite-N-methyl formamide (K-NMF) composites, respectively. The endothermic differential thermal analysis (DTA) peaks at a temperature of 108 - 334 ◦C reflected the changes in the physicochemical properties of the intercalated species. The thermal stability increase followed the order of K-Py<K-NMF<K-Ea<K-DMSO. Based on the thermal analysis data, the intercalation ratios of the composites above were determined as 80.0, 40.0, 81.6, and 82.0%, respectively. The specific surface areas are affected by the intercalation geometry of the composites within the gallery spacing. The surface areas of the K-DMSO, K-Py, and K-EA complexes increased whereas the surface area of K-NMF decreased with respect to that of untreated kaolinite.
Erzincan University Journal of Science and Technology | 2010
Bülent Çağlar; Beytullah Afşin; Osman Cubuk; Ahmet Tabak; Erdal Eren; Sevil Porikli
Based on the intensitive peaks at 1540 cm-1 and 1450 and 1610-1605 cm -1 of adsorbed pyridine species, the Bronsted acidities of the samples are given as 6A->8A->4A->2A->10A bentonite. The surface area reached a
Journal of Chemical Technology & Biotechnology | 2010
Ahmet Tabak; Nimet Baltas; B. Afsin; Mustafa Emirik; Bulent Caglar; Erdal Eren
Colloids and Surfaces A: Physicochemical and Engineering Aspects | 2007
Nevra Öztürk; Ahmet Tabak; Sinan Akgöl; Adil Denizli
Journal of Luminescence | 2011
Kadem Meral; Nuray Yılmaz; Mehmet Kaya; Ahmet Tabak; Yavuz Onganer
Colloids and Surfaces A: Physicochemical and Engineering Aspects | 2008
Nevra Öztürk; Ahmet Tabak; Sinan Akgöl; Adil Denizli
Journal of Molecular Structure | 2013
Bulent Caglar; Çağrı Çırak; Ahmet Tabak; B. Afsin; Erdal Eren
Química Nova | 2013
Bulent Caglar; B. Afsin; Engin Koksal; Ahmet Tabak; Erdal Eren
Journal of Molecular Structure | 2015
Bulent Caglar; Osman Cubuk; Ersin Demir; Fatih Coldur; Mustafa Catir; Cihan Topcu; Ahmet Tabak
