色谱
色譜
색보
CHINESE JOURNAL OF CHROMATOGRAPHY
2015年
1期
96-100
,共5页
周良芹%付大友%袁东%范金龙%谭文渊
週良芹%付大友%袁東%範金龍%譚文淵
주량근%부대우%원동%범금룡%담문연
反气相色谱%锌镁铝类水滑石%表面性能
反氣相色譜%鋅鎂鋁類水滑石%錶麵性能
반기상색보%자미려류수활석%표면성능
inverse gas chromatography(IGC)%ZnMgAl hydrotalcite-like compounds(ZnMgAl-HTLC)%surface properties
采用水热合成法制备了锌镁铝类水滑石( ZnMgAl-HTLC),利用 X 射线衍射仪( XRD)对 ZnMgAl-HTLC 的晶体结构进行了表征,并以一系列非极性和极性分子为探针分子,采用反气相色谱法( IGC)研究了 ZnMgAl-HTLC 的表面性能。结果表明:XRD特征衍射峰窄、尖、高,水热合成法能够制得纯度较高的 ZnMgAl-HTLC;ZnMgAl-HTLC表面吸附自由能小于零,表面色散自由能最大为6.02 mJ/m2,酸碱作用自由能最大为5.33 kJ/mol,吸附焓为43.6 kJ/mol,吸附熵为0.15 kJ/mol。本文的反气相色谱方法对研究锌镁铝类水滑石的表面性能具有重要的指导意义。
採用水熱閤成法製備瞭鋅鎂鋁類水滑石( ZnMgAl-HTLC),利用 X 射線衍射儀( XRD)對 ZnMgAl-HTLC 的晶體結構進行瞭錶徵,併以一繫列非極性和極性分子為探針分子,採用反氣相色譜法( IGC)研究瞭 ZnMgAl-HTLC 的錶麵性能。結果錶明:XRD特徵衍射峰窄、尖、高,水熱閤成法能夠製得純度較高的 ZnMgAl-HTLC;ZnMgAl-HTLC錶麵吸附自由能小于零,錶麵色散自由能最大為6.02 mJ/m2,痠堿作用自由能最大為5.33 kJ/mol,吸附焓為43.6 kJ/mol,吸附熵為0.15 kJ/mol。本文的反氣相色譜方法對研究鋅鎂鋁類水滑石的錶麵性能具有重要的指導意義。
채용수열합성법제비료자미려류수활석( ZnMgAl-HTLC),이용 X 사선연사의( XRD)대 ZnMgAl-HTLC 적정체결구진행료표정,병이일계렬비겁성화겁성분자위탐침분자,채용반기상색보법( IGC)연구료 ZnMgAl-HTLC 적표면성능。결과표명:XRD특정연사봉착、첨、고,수열합성법능구제득순도교고적 ZnMgAl-HTLC;ZnMgAl-HTLC표면흡부자유능소우령,표면색산자유능최대위6.02 mJ/m2,산감작용자유능최대위5.33 kJ/mol,흡부함위43.6 kJ/mol,흡부적위0.15 kJ/mol。본문적반기상색보방법대연구자미려류수활석적표면성능구유중요적지도의의。
The structure of ZnMgAl hydrotalcite-like compounds( ZnMgAl-HTLC)prepared by hydrothermal synthesis was studied by X-ray diffraction( XRD). With a series of polar and non-polar molecules as probes,inverse gas chromatography( IGC)was used to measure the surface properties of ZnMgAl-HTLC. It was found that the XRD pattern of ZnMgAl-HTLC was narrow, sharp and high. The results showed that ZnMgAl-HTLC with a higher purity was obtained by hydrothermal synthesis. The surface adsorption free energy was less than zero. The surface dis-persive free energy was 6. 02mJ/m2. The acid-base interaction free energy was 5. 33 kJ/mol. The adsorption enthalpy was 43. 6 kJ/mol,and the adsorption entropy was 0. 15 kJ/mol. The IGC method is significant in the study of the surface properties of ZnMgAl-HTLC.