A. Cakar Et Al. , "Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography," JOURNAL OF MOLECULAR STRUCTURE , vol.1265, 2022
Cakar, A. Et Al. 2022. Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography. JOURNAL OF MOLECULAR STRUCTURE , vol.1265 .
Cakar, A., ÇAKAR, F., OCAK, H., Karavelioglu, S., BİLGİN ERAN, B., & CANKURTARAN, Ö., (2022). Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography. JOURNAL OF MOLECULAR STRUCTURE , vol.1265.
Cakar, Ayşe Et Al. "Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography," JOURNAL OF MOLECULAR STRUCTURE , vol.1265, 2022
Cakar, Ayşe E. Et Al. "Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography." JOURNAL OF MOLECULAR STRUCTURE , vol.1265, 2022
Cakar, A. Et Al. (2022) . "Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography." JOURNAL OF MOLECULAR STRUCTURE , vol.1265.
@article{article, author={Ayşe ERDOĞAN ÇAKAR Et Al. }, title={Determination of the surface thermodynamic characteristics and the structural isomer separation ability of new synthesized phenylbenzoate-based three-ring calamitic liquid crystals by inverse gas chromatography}, journal={JOURNAL OF MOLECULAR STRUCTURE}, year=2022}