个人简历

1987年11月至今，北京林业大学，教师 2003年9月-2008年1月，北京林业大学材料科学与技术学院，林产化学加工工程，博士 1982年7月-1987年10月，北京市化工研究院，工程师 1978年9月-1982年6月，云南大学，化学系，本科/学士

研究领域

主要从事有机合成及功能高分子材料的教学及科研工作，研究方向为化学催化与功能高分子材料，包括高附加值功能性材料的构建与应用、纤维素基功能材料的构建以及在药物包埋、金属离子吸附方面的应用研究。

近期论文

1. Lin Dai,a Xin Cao,a Ke-Feng Liu,a Chun-Xiao Li,a Gui-Feng Zhang,b Li-Hong Deng,a
Chuan-Ling Si,c Jing He*a and Jian-Du Lei*aSelf-assembled targeted folate-conjugated
eight-arm-polyethylene glycol–betulinic acidnanoparticles for co-delivery of anticancer drugs (Journal of Materials Chemistry B)J. Mater. Chem. B, 2015, 3, 3754--3766:
2. Jie Wang, Lin Dai, Jing Cheng, Li-Hong Deng, Jing He* Characterization of adsorbent microspheres of cellulose and acrylic acid and its adsorption behaviors for metal ions Desalination and Water Treatment (2016 (57)5821–5827
3. LIN DAI, YUE SHEN, DAN LI, SHU XIAO and JING HE* , CELLULOSE-GRAFT-POLY(L-LACTIDE) AS A DEGRADABLE DRUGDELIVERY SYSTEM: SYNTHESIS, DEGRADATION AND DRUG RELEASE, Cellulose Chem. Technol., 48 (3-4), 237-245 (2014)
4. Lin Dai a, Lu-Ying Wang a, Tong-Qi Yuan b, Jing He a,*, Study on thermal degradation kinetics of cellulose-graft-poly(L-lactic
acid) by thermogravimetric analysis, Polymer Degradation and Stability 99 (2014) 233--239
5. YUE SHEN, LIN DAI, MING-FEI LI, JING HE,* BO WANG* and RUN-CANG SUN, SYNTHESIS AND COMPARISON OF GRAFT COPOLYMERS USING METHACRYLIC MONOMERS AND CELLULOSE VIA ATRP, Cellulose Chem. Technol., 48 (7-8), 653-660 (2014)
6. Lin Dai, Dan Li, Jing Cheng, Jing Liu, Li-Hong Deng, Lu-Ying Wang, Jian-Du Lei* and Jing He*, Water soluble multiarm-polyethylene glycol-betulinic acid prodrugs: design, synthesis, and in vivo effectiveness?, Polym. Chem., 2014, 5, 5775-5783
7. Wang Yingsa, Tian Yajie, Zhu Pengbo, He Jing* Lei, Jiandu . Self-assembled nanoparticles based on poly(eth- ylene glycol) -oleanolic acid conjugates for co-delivery of anticancer drugs[J]. RSC Advances, 2017, 7(47) : 29591-29598.
8. Tian Yajie, Wang Yingsa, Ma Yunyun, He Jing* Lei, Jiandu. Optimization of subcritical water extraction of resveratrol from Grape seeds by response surface methodology[J]. Applied Sciences-basel, 2017, 7(4), 321.