Contact Information

 

Name:Jianbo Li

Email: jianbol@163.com

Education

Ph.D. Material science
Tongji University

Research and Publications

   

Research Interests:

1. Nanomaterials

2. Synthesis of Functional and Smart Polymers

3. Biomedical Polymer Materials

4. Bio-based and Biodegradable Polymers

Recent Publications:

[1] Lin C, Lou B, Zhao J, Jin R, Zhao P, Li JB, Ren J. Self-assembled micelles of PEG-poly(disulfide carbamate amine) copolymers for intracellular dual-responsive drug delivery. Journal of Materials Chemistry B 2016, 4(5): 902-909.

 

[2] Cai S, Zeng C, Zhang N, Li JB, Meyer M, Fink RH, Shi D, Ren J. Enhanced mechanical properties of PLA/PLAE blends via well-dispersed and compatilized nanostructures in the matrix. RSC Advances 2016, 6(30): 25531-25540.

 

[3] Deng L, Ren J, Li JB*, Leng J, Qu Y, Lin C, Shi D. Magnetothermally responsive star-block copolymeric micelles for controlled drug delivery and enhanced thermo-chemotherapy. Nanoscale 2015, 7(21): 9655-9663.

 

[4] Liu Y, Lin C, Li JB*, Qu Y, Ren J. In Vitro and In Vivo Gene Transfection Using Biodegradable and Low Cytotoxic Nanomicelles Based on Dendritic Block Copolymers. Journal of Materials Chemistry B 2015, 3(4): 688-699.

 

[5] Leng J, Li JB*, Ren J, Deng L, Lin C. Star–block copolymer micellar nanocomposites with Mn,Zn-doped nano-ferrite as superparamagnetic MRI contrast agent for tumor imaging. Materials Letters 2015, 152: 185-188.

 

[6] Chen X, Ren J, Zhang N, Gu S, Li JB*. Effects of heat treatment on the thermal and mechanical properties of ramie fabric-reinforced poly(lactic acid) biocomposites. Journal of Reinforced Plastics and Composites 2015, 34(1): 28-36.

 

[7] Li J, Qu X, Payne GF, Zhang C, Zhang Y, Li JB, Ren J, Hong H, Liu C. Biospecific Self-Assembly of a Nanoparticle Coating for Targeted and Stimuli-Responsive Drug Delivery. Advanced Functional Materials 2015, 25(9): 1404-1417.

 

[8] Zhang C, Qu X, Li J, Hong H, Li JB, Ren J, Payne GF, Liu C. Biofabricated Nanoparticle Coating for Liver-Cell Targeting. Advanced Healthcare Materials 2015, 4(13): 1972-1981.

 

[9] Huang B, Yuan Y, Ding S, Li JB, Ren J, Feng B, Li T, Gu Y, Liu C. Nanostructured hydroxyapatite surfaces-mediated adsorption alters recognition of BMP receptor IA and bioactivity of bone morphogenetic protein-2. Acta Biomaterialia 2015, 27: 275-285.

 

[10] Qu Y, Li JB*, Ren J, Leng J, Lin C, Shi D. Enhanced synergism of thermo-chemotherapy by combining highly efficient magnetic hyperthermia with magnetothermally-facilitated drug release. Nanoscale 2014, 6(21): 12408-12413.

 

[11] Qu Y, Li JB*, Ren J, Leng J, Lin C, Shi D. Enhanced Magnetic Fluid Hyperthermia by Micellar Magnetic Nanoclusters Composed of MnxZn1–xFe2O4 Nanoparticles for Induced Tumor Cell Apoptosis. ACS Applied Materials & Interfaces 2014, 6(19): 16867-16879.

 

[12]   Li JB* , Leng J, Qu Y, Deng L, Ren J. Preparation and optimization of biodegradable star-block copolymer micelles for temperature-triggered drug release. Materials Letters 2014, 131: 5-8.

 

[13] Liu Y, Li JB*, Ren J, Lin C, Leng J. Preparation and in vitro pH-responsive drug release of amphiphilic dendritic star-block copolymer complex micelles. Materials Letters 2014, 127: 8-11.

 

[14] Liu Y, Ren J, Leng J, Li JB*, Deng L. Preparation of PEG Functionalized Nanoparticles for Drug Delivery to Cancer Cells. Advanced Materials Research 2014, 893: 194-197.

 

[15] Chen X, Zhang NW, Gu SY, Li JB, Ren J. Preparation and properties of ramie fabric-reinforced thermoset poly lactic acid composites. Journal of Reinforced Plastics and Composites 2014, 33(10): 953-963.

 

[16] Qu Y, Li JB*, Ren J. Thermo-Sensitive Drug Delivery and Relevant Applications on Thermo-Chemotherapy. Progress in Chemistry 2013, 25(5): 785-798.

 

[17]   Li JB, Qu Y, Ren J, Yuan WZ, Shi DL. Magnetocaloric effect in magnetothermally-responsive nanocarriers for hyperthermia-triggered drug release. Nanotechnology 2012, 23(50): 505706.

 

[18]   Li JB, Han J, Ren J. Interaction of human fibroblasts with electrospun composites gelatin/PLLA, chitosan/PLLA and PLLA fibrous scaffolds. Journal of Shanghai Jiaotong University (Science) 2012, 17(5): 559-566.

 

[19] Chang S, Zeng C, Li JB, Ren J. Synthesis of polylactide-based thermoset resin and its curing kinetics. Polymer International 2012, 61(10): 1492-1502.

 

[20] Zheng X, Xu Q, Li JB, Li L, Wei J. High-Throughput, Direct Exfoliation of Graphite to Graphene via a Cooperation of Supercritical CO2 and Pyrene-polymers. RSC Advances 2012, 2(28): 10632-10638.

 

[21] Gu SY, Wang ZM, Li JB, Ren J. Switchable Wettability of Thermo-Responsive Biocompatible Nanofibrous Films Created by Electrospinning. Macromolecular Materials and Engineering 2010, 295(1): 32-36.

 

[22]   Li JB, Ren J, Cao Y, Yuan WZ. Synthesis of biodegradable pentaarmed star-block copolymers via an asymmetric BIS-TRIS core by combination of ROP and RAFT: From star architectures to double responsive micelles. Polymer 2010, 51(6): 1301-1310.

 

[23]   Li JB, Ren J, Cao Y, Yuan WZ. Preparation and characterization of thermosensitive and biodegradable PNDH-g-PLLA nanoparticles for drug delivery. Reactive & Functional Polymers 2009, 69(12): 870-876.

 

[24]  Li JB, Xu Q, Wang JG, Jiao JX, Zhang ZW. Controlled Synthesis of Monolithic Hierarchical Porous Materials Using Wood as a Template with Assistance of Supercritical Carbon Dioxide. Industrial & Engineering Chemistry Research 2008, 47(20): 7680-7685.

 

[25] Yin CY, Li JB, Xu Q, Peng Q, Liu YB, Shen XY. Chemical modification of cotton cellulose in supercritical carbon dioxide: Synthesis and characterization of cellulose carbamate. Carbohydrate Polymers 2007, 67(2): 147-154.

 

[26]  Li JB, Xu Q, Peng Q, Pang MZ, He SQ, Zhu CS. Supercritical CO2-assisted synthesis of polystyrene/clay nanocomposites via in situ intercalative polymerization. Journal of Applied Polymer Science 2006, 100(1): 671-676.

 

[27] Xu Q, Li JB, Peng Q, Wu LL, Li SP. Novel and simple synthesis of hollow porous silica fibers with hierarchical structure using silk as template. Materials Science and Engineering B-Solid State Materials for Advanced Technology 2006, 127(2-3): 212-217.

   

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