[1]Monodisperse Poly (4-vinylpyridine-co-divinyl benzene/trimethylolpropane trimethacrylate) Microspheres Prepared via Precipitation Polymerization. Lu, Chun-xia,Tang, Zong-gui,Wang, Jing,Luo, Zhi-gen,Chen, Xia,Li, Hong-min. 2016

[2]ERK inhibition sensitizes cancer cells to oleanolic acid-induced apoptosis through ERK/Nrf2/ROS pathway. Liu, Jia,Ma, Leina,Chen, Xiao,Wang, Jianxun,Yu, Tao,Gong, Ying,Ma, Aiguo,Liang, Hui,Ma, Leina,Zheng, Lanhong. 2016

[3]Oleanolic acid inhibits proliferation and invasiveness of Kras-transformed cells via autophagy. Liu, Jia,Zheng, Lanhong,Liu, Jia,Wu, Ning,Liu, Ge,Lin, Xiukun,Ma, Leina,Wang, Bin,Zhao, Youguang,Lin, Xiukun.

[4]Oleanolic Acid Induces Metabolic Adaptation in Cancer Cells by Activating the AMP-Activated Protein Kinase Pathway. Liu, Jia,Wu, Ning,Liu, Ge,Lin, Xiukun,Zheng, Lanhong,Liu, Jia,Liu, Ge,Ma, Leina,Zhong, Jiateng,Lin, Xiukun.

[5]Oleanolic acid induces protective autophagy in cancer cells through the JNK and mTOR pathways. Liu, Jia,Wu, Ning,Liu, Ge,Lin, Xiukun,Zheng, Lanhong,Liu, Jia,Liu, Ge,Lin, Xiukun,Zhong, Jiateng.

[6]Profiling and identification of the metabolites of ginsenoside Ro in rat faeces and urine after oral administration. Wang, Jia,Xiao, Shengyuan,Wang, Jia,Zheng, Peihe,Zheng, Siwen,Wang, Yufang,Zhu, Yanzhu,Wang, Yingping,Xiao, Shengyuan,Zhou, Hua.

[7]p38 MAPK Signaling Mediates Mitochondrial Apoptosis in Cancer Cells Induced by Oleanolic Acid. Liu, Jia,Wu, Ning,Liu, Ge,Lin, Xiu-Kun,Zheng, Lan-Hong,Ma, Lei-Na,Liu, Ge,Lin, Xiu-Kun,Zhong, Jia-Teng. 2014

[8]Application of FTIR and Active Ingredients Quantitative Analysis on Quality Control of Dai Medicine Alstonia scholaris (L.) R. Br.. Yang Ni-na,Zhao Ying-hong,Yang Ni-na,Yang Chun-yong,Wang Yuan-zhong,Wang Yuan-zhong. 2017

[9]Distribution and expression characteristics of triterpenoids and OSC genes in white birch (Betula platyphylla suk.). Yin, Jing,Ren, Chun-Lin,Zhan, Ya-Guang,Li, Chun-Xiao,Qiu, Wei,Li, Xin-Yu,Xiao, Jia-Lei,Peng, Hong-Mei.

[10]Magnetic molecularly imprinted polymers for the determination of beta-agonist residues in milk by ultra high performance liquid chromatography with tandem mass spectrometry. Liu, Hongcheng,Lin, Xin,Lin, Tao,Luo, Yinglan,Li, Qiwan,Liu, Hongcheng,Lin, Xin,Lin, Tao,Luo, Yinglan,Li, Qiwan,Liu, Hongcheng,Lin, Xin,Lin, Tao,Luo, Yinglan,Li, Qiwan,Zhang, Yulong.

[11]Selective Determination of Chloramphenicol in Milk Samples by the Solid-Phase Extraction Based on Dummy Molecularly Imprinted Polymer. Zhao, Fengnian,She, Yongxin,Zhang, Chao,Wang, Shanshan,Jin, Fen,Jin, Maojun,Shao, Hua,Zheng, Lufei,Wang, Jing,Du, Xinwei.

[12]Class-specific molecularly imprinted polymers for the selective extraction and determination of sulfonylurea herbicides in maize samples by high-performance liquid chromatography-tandem mass spectrometry. She, Yong-xin,Cao, Wei-qiang,Shi, Xiao-mei,Lv, Xiao-ling,Liu, Jia-jia,Wang, Rong-yan,Jin, Fen,Wang, Jing,Xiao, Hang,Cao, Wei-qiang.

[13]Analysis of Melamine in Milk Powder by CNT-MIP with Matrix Solid Phase Dispersion and LC-MS/MS. Wang, Yu,Chen, Ligang,Gao, Lei,Qin, Dongli.

[14]Newly Combined Method of Molecularly Imprinted Solid-Phase Extraction with ELISA for Rapid Detection of Clenbuterol in Animal-Tissue Samples. Zheng, Sulian,Lan, Huo,Li, Rongxiu,Wu, Aibo,Zhang, Dabing,Song, Suquan,Qu, Guorun. 2009

[15]Selective solid-phase extraction based on molecularly imprinted technology for the simultaneous determination of 20 triazole pesticides in cucumber samples using high-performance liquid chromatography-tandem mass spectrometry. Zhao, Fengnian,She, Yongxin,Zhang, Chao,Cao, Xiaolin,Wang, Shanshan,Zheng, Lufei,Jin, Maojun,Shao, Hua,Jin, Fen,Wang, Jing,Zhao, Fengnian,She, Yongxin,Zhang, Chao,Cao, Xiaolin,Wang, Shanshan,Zheng, Lufei,Jin, Maojun,Shao, Hua,Jin, Fen,Wang, Jing.

[16]Preparation and adsorption properties of glucose molecularly imprinted polymers in hydrous solution for effective determination of glucose in fruits by MISPE-HPLC. Zhi, Kangkang,Zhang, Min,Yang, Xin,Zhao, Haitian,Dong, Aijun,Zhang, Hua,Wang, Jing,Wang, Jing.

[17]Preparation of Molecularly Imprinted Polymers Functionalized with Core-shell Magnetic Nanoparticles for the Recognition of Glycoprotein. Wang, He-Ye,Li, Li,Zhao, Yong-Fu. 2015

[18]Group-selective molecularly imprinted polymer solid-phase extraction for the simultaneous determination of six sulfonamides in aquaculture products. Shi, Xizhi,Meng, Yuan,Liu, Jinghua,Sun, Aili,Li, Dexiang,Lu, Yin,Chen, Jiong,Yao, Chunxia.

[19]A sensitive chemiluminescence enzyme immunoassay based on molecularly imprinted polymers solid-phase extraction of parathion. Chen, Ge,Jin, Maojun,Du, Pengfei,Zhang, Chan,Cui, Xueyan,Zhang, Yudan,She, Yongxin,Shao, Hua,Jin, Fen,Wang, Shanshan,Zheng, Lufei,Wang, Jing.

[20]Computer-assisted design and synthesis of molecularly imprinted polymers for the simultaneous determination of six carbamate pesticides from environmental water. Qi, Peipei,Wang, Xiangyun,Wang, Xinquan,Zhang, Hu,Xu, Hao,Wang, Qiang,Qi, Peipei,Wang, Qiang,Wang, Xiangyun,Wang, Xinquan,Zhang, Hu,Xu, Hao,Jiang, Kezhi.