摘要
Thermal spectra of liquid crystal, \%p\|n\%\|dodecyloxy benzoic acid were collected at 26\150 ℃ by FTIR microspectroscopy. Conformational apparent enthalpy differences Δ\%H\% in phase transitions have been determined by vant Hoff equation at constant pressure and plotted with temperature. Compared to DSC, these enthalpies plot with temperature could be divided into three types. The first one was long alkyl chain group which has only one apparent endothermic enthalpy peak at 95 ℃. The second one was partial carbonyl and aromatic ether groups has three endothermic enthalpy peaks in the phase transition. The third type including benzoyl group which has one exothermic enthalpy peak at 95 ℃ and a broad endothermic enthalpy peak in the range of 128\140 ℃. These differences indicated that oxy\|benzoic acid part of dodecyloxy benzoic acid recrystallized to cycle dimer during alkyl chain melting in crystal\|smectic phase transition.
Thermal spectra of liquid crystal, \%p\|n\%\|dodecyloxy benzoic acid were collected at 26\_150 ℃ by FTIR microspectroscopy. Conformational apparent enthalpy differences Δ\%H\% in phase transitions have been determined by vant Hoff equation at constant pressure and plotted with temperature. Compared to DSC, these enthalpies plot with temperature could be divided into three types. The first one was long alkyl chain group which has only one apparent endothermic enthalpy peak at 95 ℃. The second one was partial carbonyl and aromatic ether groups has three endothermic enthalpy peaks in the phase transition. The third type including benzoyl group which has one exothermic enthalpy peak at 95 ℃ and a broad endothermic enthalpy peak in the range of 128\_140 ℃. These differences indicated that oxy\|benzoic acid part of dodecyloxy benzoic acid recrystallized to cycle dimer during alkyl chain melting in crystal\|smectic phase transition.
出处
《高等学校化学学报》
SCIE
EI
CAS
CSCD
北大核心
2001年第12期2123-2125,共3页
Chemical Journal of Chinese Universities
基金
国家教育部科学技术研究重点项目
国家教育部骨干教师资助计划项目资助
