杨亚江 教授（博士生导师）1975年12月毕业于华南理工大学有机化工系高分子化工专业。1976年－1993年湖北省化学研究所，助理研究员。1986－1987加拿大阿尔伯达研究院访问学者。1989－1992荷兰格罗宁根大学访问学者。主要研究领域(main research interests)智能高分子

人物生平

主要研究领域

研究论文

人物生平

杨亚江 教授（博士生导师）

1975年12月毕业于华南理工大学有机化工系高分子化工专业。

1976年－1993年湖北省化学研究所，助理研究员。

1986－1987加拿大阿尔伯达研究院访问学者。

1989－1992荷兰格罗宁根大学访问学者。

1993－ 华中科技大学，副教授、教授、博士生导师

2002－2002澳大利亚悉尼大学访问学者。

1975, graduated from Department of Organic Chemical Engineering, South China University of Science and Technology. Speciality: polymer engineering.

1976-1993, Associate Researcher, Hubei Institute of Chemistry

1986-1987, Visiting Scientist, Alberta Research Council, Canada

1989-1992, Visiting Scientist, University of Groningen, The Netherlands.

1993- Associate Professor, Professor, Department of Chemistry, Huazhong University of Science and Technology.

2002-2002, Visiting Scientist, University of Sydney, Australia

主要研究领域

(main research interests)

智能高分子：主要开展智能聚合物凝胶。研究聚合物凝胶对外界环境条件（温度、液体介质的组成、pH或离子强度、外加电场、光照和生化反应等）的变化能及时作出溶涨和收缩应答的智能功能，使聚合物具有感知、传感、处理和驱动的能力。在疏水相互作用导致的智能聚合物凝胶方面形成了特色。在医学和仿生学领域有许多应用，如各种膜、药物缓释载体等。（该研究曾获2项国家自然科学基金资助）

Intelligent polymers: The main research interests are in the field of polymer hydrogels which are responsible to stimuli of environment including temperature, composition of solutions, pH or ionic strength, electric fields and so on. These hydrogels are capable to act as sensors and drivers etc. Particularly, the hydrogels with responsibility results from hydrophobic interactions have potential applications in the area of drug delivery system and bionics.

超分子化学：主要开展凝胶因子（geltors）在溶剂中利用非共价相互作用自发地聚集、组装成有序结构, 进而使整个体系凝胶化，形成分子凝胶。利用带有双键等可聚合基团凝胶因子,使有机溶剂先发生凝胶化, 后引发聚合, 从而形成稳定的有序高级结构。作为分子平台，研究客体分子在凝胶体系那的传质等，在药物载体、凝胶电解质领域有许多应用。（该研究曾获3项国家自然科学基金及航天、信息产业部、省攻关项目资助）

Supramolecular chemistry: The main research interests are the supramolecular gels which can be formed by self-assembly of organic gelators in water and organic solvents. Particularly, a stable supramolecular gel can be formed by polymerizable gelators. The supramolecular gels are capable to act as a carrier of host-guest molecular interactions. The main potential applications are in the fields of drug carrier and electrolytes etc.

纳米药物载体：主要开展聚合物纳米粒的制备及用于药物载体，研究纳米效应在降低药物毒性、提高药物靶向性以及纳米药物的生物安全性等（该研究曾获国家973项目、国家863项目、国家“十五”科技攻关、国家中长期发展规划项目资助）

Nanomedicine carriers: The main research interests are the polymer nano-particles which act as the drug carriers. The drug-loaded nano-particles usually can reduce the toxicity of drug and enhance drug targeting.

研究论文

1．Thermosensitive phase behavior and drug release of in situ gelable poly(N-isopropylacrylamide-co-acrylamide) microgels， Colloid Polym Sci, 2007, 285, 515-521

2．Fractal Study of Mesoporous Structure in Water Molecular Condensed System，Chinese J. of Chem. Phys. 2007, 20, 17-21.

3. Gelation of the Organic Liquid Electrolytes and the Conductivities as Organogel Electrolytes, Electrochemistry Communication, Available online in February 3, 2007

4. pH-Responsive Semi-Interpenetrating Networks Hydrogels of Poly(acrylateacrylamide) and Amylose: I. Synthesis and Characterization, J. Appl. Polym. Sci. 2007, in press

5. 十八烷基-L-苯丙氨酸齐聚物在有机溶剂中的自组装研究, 化学学报，2007, in press