化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2013年
11期
2549-2554
,共6页
梁莹%段明%王虎%方申文
樑瑩%段明%王虎%方申文
량형%단명%왕호%방신문
聚合物%界面%吸附%双偏振干涉测量技术%相互作用
聚閤物%界麵%吸附%雙偏振榦涉測量技術%相互作用
취합물%계면%흡부%쌍편진간섭측량기술%상호작용
polymer%interface%adsorption%dual polarization interferometry%interaction
双偏振干涉测量(dual polarization interferometry,简称DPI)技术具有无需标记、实时、精确测量的优点。因此它能对两相或者多相分子相互作用界面层的密度、厚度和质量进行实时地、动态地定量测量,从而了解分子结构与界面相互作用行为之间的关系。本文简单介绍了DPI的测量原理和特点,着重评述了DPI技术在研究聚合物固液界面行为方面的最新应用进展。通过借鉴国外学者的研究方法和模型,研究聚合物在油水界面的吸附过程,建立吸附过程热力学和动力学模型,从分子层面揭示聚合物在油水界面的吸附机理,为含聚污水处理提供新思路和理论依据。随着 DPI 研究应用的不断展开和深入,还可以应用于胶体表面化学、材料表面化学和纳米化学。
雙偏振榦涉測量(dual polarization interferometry,簡稱DPI)技術具有無需標記、實時、精確測量的優點。因此它能對兩相或者多相分子相互作用界麵層的密度、厚度和質量進行實時地、動態地定量測量,從而瞭解分子結構與界麵相互作用行為之間的關繫。本文簡單介紹瞭DPI的測量原理和特點,著重評述瞭DPI技術在研究聚閤物固液界麵行為方麵的最新應用進展。通過藉鑒國外學者的研究方法和模型,研究聚閤物在油水界麵的吸附過程,建立吸附過程熱力學和動力學模型,從分子層麵揭示聚閤物在油水界麵的吸附機理,為含聚汙水處理提供新思路和理論依據。隨著 DPI 研究應用的不斷展開和深入,還可以應用于膠體錶麵化學、材料錶麵化學和納米化學。
쌍편진간섭측량(dual polarization interferometry,간칭DPI)기술구유무수표기、실시、정학측량적우점。인차타능대량상혹자다상분자상호작용계면층적밀도、후도화질량진행실시지、동태지정량측량,종이료해분자결구여계면상호작용행위지간적관계。본문간단개소료DPI적측량원리화특점,착중평술료DPI기술재연구취합물고액계면행위방면적최신응용진전。통과차감국외학자적연구방법화모형,연구취합물재유수계면적흡부과정,건립흡부과정열역학화동역학모형,종분자층면게시취합물재유수계면적흡부궤리,위함취오수처리제공신사로화이론의거。수착 DPI 연구응용적불단전개화심입,환가이응용우효체표면화학、재료표면화학화납미화학。
Dual polarization interferometry (DPI) technology is a label-free,real-time,precise and sensitive technique. It allows real-time,dynamic and quantitative determination of the density, thickness and mass for molecular bilayer or multilayer,revealing the relationship between molecular structure and interfacial activity. The principle and characteristics were briefly introduced and the current applications of DPI in polymer activity at solid-liquid interface were extensively reviewed. The process of polymer adsorption on oil-water interface by the experience of foreign scholars was studied for reference and the thermodynamic and kinetic model for polymer adsorption was established,and then the mechanism of the polymer adsorption on oil-water interface can be revealed from molecular level,providing new ideas and theoretical basis in the treatment of polymer-contained water. With the development of DPI,this technique can be applied in colloid surface chemistry,material surface chemistry and nanometer chemistry.