代表性论文
共发表论文100余篇,其中被SCI、EI和CSCD等收录50余篇,近三年第一作者或通讯作者发表的部分代表性论文有:
(1)Jianmin Xing and Fenfang Li . Separation and purifacton aloe polysaccharides using ultrafiltration membrane combined with the aqueous two phase system. Applied Biochemistry and Biotechnology,2009,157(3):11-19 (SCI收录)
(2)Jianmin Xing, Fenfang Li and JingPing. Recovery and purification of nicotine from waste tobacco by Aqueous Two Phase System/Reverse Extraction. Natural Product Communications,2009,4(8):1093-1094 (SCI收录)
(3)Jianmin Xing and Fenfang Li. Purification of aloe polysaccharides by using aqueous two-phase extraction with desalination. Natural Product Research, 2009,23(15):1424-1430 (SCI收录)
(4)Sheng Liping, Li Fenfang and Fan Chengkai. Initial exploration of tribological performance of novel triazine derivatives in water. Lubrication Science,2009,(21):151-159
(SCI收录、EI收录)
(5)Zhou Maolin,Fenfang Li and Zeng Xiaojun. Synthesis of two novel additives and study of their tribological properties in rapeseed oil, Petroleum Processing and Petrochemical Technology, 2007,(3):29-33. (SCI收录)
(6)Fan Chengkai, Li Fenfang and Sheng Liping.Tribological Behaviors of S,B-Containing Morpholine Derivatives as Additives in Rapeseed Oil. Petroleum Processing and Petrochemicals,2008, 39(10): 58-62 (SCI收录)
(7)Zeng Xiaojun, Li Fenfang,Zhou Maolin. Preparation and Anti-wear and Friction-reducing Properties of Barium Boratw modified with Dodecoxyl group. Petroleum processing and Petrochemical Technology. 2007, (4):55-59(SCI收录)
(8)You Jianwei,Li Fenfang and Chen Boshui. Tribological performance of two potential environmentally friendly ashless vegetable oil additive.Petroleum processing and Petrochemical Technology. 2010, 12(1):43-48 (SCI收录)
(9)邢健敏,李芬芳.温度诱导双水相体系中扁桃酸的手性识别研究.高等学校化学学报,2009,30(9):1744-1748 (SCI收录)
(10)李芬芳,田科奇,邢健敏. 烟渣基多孔炭材料的制备及其甲基橙吸附性能研究,功能材料,2009,40(9):1490-1492 (EI收录)
(11)郭志峰,李芬芳,邢健敏.双水相萃取法在α-环己基扁桃酸手性分离中的应用研究,高等学校化学学报,2011,32(2):281-286(SCI收录)
(12)ZhiJian Tan, FenFang Li, and JianMin Xing. Separation and Purification of Aloe Anthraquinones Using PEG/Salt Aqueous Two-Phase System,Separation Science and Technology, 2011,46: 1503–1510 (SCI收录)