本方向通过高效液相色谱、气相色谱、离子色谱和毛细管电泳等色谱研究手段，探讨复杂样品中的化学成分分离与分析，开展相关新方法和新技术研究；同时进行复杂体系分析中的分析化学方法和化学计量学方法与应用研究。探索制备新型分离材料如分子印迹聚合物，开发多种具有特殊识别能力的先进分离介质，以南疆地区丰富的植物资源为主要研究对象，对特色资源有效成分进行分离、富集方法研究。

代表性的科研成果

1.Preparationof 4-butylaniline-bonded attapulgite for pre-concentration of bisphenol A intrace quantity，Talanta，2015，136：29~34.

2.Conjugationof Photosensitizer to Near Infrared Light Renewable Persistent LuminescenceNanoparticles for Photodynamic Therapy, Chem. Comm., 2016, 52(90): 13303-13306.

 

3.Preparationof 4‐butylaniline‐bonded silica gel for the solid‐phase extraction of flavoneglycosides，J.Sep. Sci.，2015，38：1149~1155.

4.Determinationof Bovine Hemoglobin by Near-infrared Diffuse Reflectance Spectroscopy withNovel Adsorption Preconcentration, Anal. Lett.，2017，50（7）：1196–1208.

5.High-PerformanceRechargeable Aqueous Zn-Ion Batteries with Poly(Benzoquinonyl Sulfide) Cathode，Inorg. Chem.Front., 2018，5(6)，1391－1396.

6.Quinonesas Electrode Materials for Rechargeable Lithium Batteries, Acta. Phys.Chim. Sin. 2016, 32 (7), 1593－160.

7.5, 10, 15, 20 - tetrakis - (4-methoxyphenyl) porphyrinfilm/K+ ion-exchanged optical waveguide gas sensor. Opt. Laser. Technol.,128（2020）106260.

8.A highly sensitive and selective optical waveguide sensorbased on a porphyrin-coated ZnO film. Sensor. Actuat. A-Phys,309（2020）111918.

9.Highly sensitive optical waveguide sensor for SO₂and H₂S detection in the parts-per-trillion regime usingtetraaminophenyl porphyrin, J Mod. Optic.,2020,67(6).