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教师队伍

范治平

作者:生物制药研究院 发布时间:2023-01-01

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范治平,博士,副教授,硕士研究生导师,聊城大学“光岳学者”。山东省科技特派员;聊城大学生物制药“泰山学者”团队核心成员、秘书;聊城大学业务部门工会委员。九三学社山东省委科普专门委员会委员,九三学社聊城市委青工委委员,九三学社聊城大学委员会第三支社主委。

 

主要科研方向:1、高端药物制剂 2、药用高分子智能缓控释材料3、特种制剂流变学。致力于普通化药、生物大分子药物的制剂研究;医用、药用高分子缓控释材料的制备;特种凝胶制剂流变学等。近年来,主持山东省自然科学基金面上项目(ZR202102260358),青年项目(ZR2016EL04),海藻活性物质国家重点实验室开放基金,山东省抗体制药协同创新中心开放课题,参与国家“重大新药创制”科技重大专项(2017ZX09201003-013),国家自然科学基金及省部级课题多项。在Food HydrocolloidsInt. J. Biol. Macromol Int J Pharm等国际期刊发表SCI/EI文章20余篇,中文核心6篇,中国专利10; 中国科技期刊卓越行动计划高起点新刊Journal of Future FoodsJCR,Q1)青年编委,国际期刊Polymers客座编辑。2018年,入选聊城市高新区“3111”人才工程高端人才;2019年,作为项目参与者获山东省高等学校科学技术二等奖一项。2023年,参与获得第二届全国博士后创新创业大赛铜奖。2024年,遴选为聊城市专家人才联合会会员。

 

 

学习经历:

2015.08  东南大学      化学化工学院        材料科学与工程专业    获工学博士(PhD

2011.07  齐鲁工业大学  材料科学与工程学院  高分子物理与化学专业  获理学硕士(MS

2008.07  齐鲁工业大学  化学化工学院        化学工程与工艺专业    获工学学士(BS

 

国际会议:

Z.P. Fan, REPARATION OF HYBRID POLYPEPTIDE HYDROGELS BY NATIVE CHEMICAL LIGATION. Biomaterails International 2015. June 2015, Kenting, Taiwan ( Oral Presentation).

Z.P.Fan, POLYPEPTIDE HYDROGEL FABRICATED VIA NATIVE CHEMICAL LIGATION. China International Biomaterial Conference 2017. September 2017 ShanghaiChina ( Oral Presentation).

Z.P. Fan, The 5th International Biomaterials Symposium (IBS). August 2018, Changchun, China. (Poster)

Z.P. Fan, 2020海峡两岸暨港澳生物材料与组织再生青年科学家学术会议(Biomaterials 2020. November 2020, Shanghai, China. (Poster)

 

代表性论文:(全文获取:https://www.researchgate.net/profile/Zhiping_Fan2)

[27] Zhang G, Cheng P, Chu L, Zhang H, Wang C, Shi R, Fan Z*, et al. Unveiling the rheological and thermal behavior of a novel Salecan and whey protein isolate composite gel. Int J Biol Macromol, 2024, 132528 (SCI一区 Top, IF= 7.7)

[26] Zhang P, Fan Z*, Cheng P, Tian F, Wang Z, Han J. Dynamic hydrazone crosslinked salecan/chondroitin sulfate hydrogel platform as a promising wound healing Strategy: A comparative study on antibiotic and probiotic delivery. Int J Pharm, 2024, 124667 (SCI二区)

[25] Wang B, Zhang G, Cheng P, Wang Z, Han J, Fan Z*. Rheological and Thermal Studies of Euglena/Konjac Glucomannan Composite Gel as a New Resource Food Matrix. J Food Process Eng, 2024, https://doi.org/10.1111/jfpe.14768

[24] Zhang G, Cheng P, Wang Z, Han J, Fan Z*. Haematococcus pluvialis meets gellan gum: Rheological and thermal exploration of a new resource food and biomedical gel matrix. J Food Sci, 2024, https://doi.org/10.1111/1750-3841.17433 (SCI二区 Top)

[23] 张广明, 王保平, 程萍, 范治平*, 韩军. 天然高分子抗菌水凝胶伤口敷料研究进展. 高分子通报, 2024, 37, 1337-1353

[22] Fan, Z, P. Cheng, P. Zhang, G. Zhang, J. Han, Rheological insight of polysaccharide/protein based hydrogels in recent food and biomedical fields: A review, Int. J. Biol. Macromol. 222 (Pt B) (2022) 1642-1664. (SCI一区 Top, IF= 8.03)

[21] Fan, Z, P. Cheng, L. Chu, J. Han, Exploring the Rheological and Structural Characteristics of Novel Pectin-Salecan Gels, Polymers 14 (2022) 4619.

[20] Fan, Z, P. Cheng, P. Zhang, Y. Gao, Y. Zhao, M. Liu, J. Gu, Z. Wang, J. Han, A novel multifunctional Salecan/κ-carrageenan composite hydrogel with anti-freezing properties: Advanced rheology, thermal analysis and model fitting, Int. J. Biol. Macromol. 208 (2022) 1-10. (SCI一区 Top, IF= 8.03)

[19] Fan, Z, P. Cheng, Y. Gao, D. Wang, G. Jia, P. Zhang, S. Prakash, Z. Wang, J. Han, Understanding the Rheological Properties of a Novel Composite Salecan/Gellan Hydrogels, Food Hydrocolloids, (2022) 107162. (SCI一区 Top, IF= 11.5)

[18] Fan, Z, P. Cheng, S. Prakash, P. Zhang, L. Mei, S. Ji, Z. Wang, J. Han, Rheological investigation of a versatile salecan/curdlan gel matrix, Int J Biol Macromol 193 (2021) 2202-2209. (SCI一区 Top, IF= 8.03)

[17] Fan Z, Cheng P, Wang D, Han Jun et al. Design and Investigation of Salecan/Chitosan Hydrogel Formulations with Improved Antibacterial Performance and 3D Cell Culture Function[J]. J Biomater Sci Polym Ed, 2020: 1-16

[16] Fan Z, Cheng P, Han Jun, et al. Dynamic crosslinked and injectable biohydrogels as extracellular matrix mimics for the delivery of antibiotics and 3D cell culture[J]. RSC Adv, 2020, 10: 19587-19599

[15] Fan Z, Cheng P, Ling L, et al. Dynamic bond crosslinked poly(γ-glutamic acid) / Salecan derived hydrogel as a platform for 3D cell culture[J]. Materials Letters, 2020: 127936

[14] Fan Z, Cheng Ping, Han Jun. In situ Forming Oxidized Salecan/Gelatin Injectable Hydrogels for Vancomycin Delivery and 3D Cell Culture [J]. J Biomater Sci Polym Ed. 2020, 31: 762-780

[13] 范治平,程萍,韩军等. pH敏感型聚谷氨酸/透明质酸基互穿网络医用水凝胶:体外抗菌及细胞3D培养研究 [J]. 高分子通报, 2020. 2:23-37

[12] 范治平,程萍,韩军等. 天然高分子基刺激响应性智能水凝胶 [J]. 材料导报, 34(21) (2020) 21012-21025.

[11] Fan Z, Cheng Ping, Han Jun. Poly (glutamic acid) Hydrogels crosslinked via Native Chemical Ligation [J]. New Journal of Chemistry, 2017, 41(16), 8656-8662.

[10] Fan Z, Zhang Y, Fang S, Xu C, Li X. Bienzymatically crosslinked gelatin/hyaluronic acid interpenetrating network hydrogels: preparation and characterization[J]. RSC Advances, 2015, 5 (3):1929-1936

[9] Fan Z, Li X. In situ forming injectable poly (γ- glutamic acid) - based biohydrogel by enzymatic crosslinking. J. Appl. Polym. Sci. 2015, 132, 42301

[8] Fan Z, Zhang Y, Ji J, Li X. Hybrid Polypeptide Hydrogel Produced via Native Chemical Ligation[J]. RSC Advances, 2015, 5 (22):16740-16747

[7] Fan Z, Liu W, Zhang X, He W, Jiang J, Jiang Q, Sun X. Wettability, optical property of a superhydrophobic YAG film[J]. Optics Communications, 2011, 284 (16):4013-4017

[6] Fan Z, Liu W, Wei Z, Yao J, Sun X, Li M, Wang X. Fabrication of two biomimetic superhydrophobic polymeric surfaces[J]. Appl Surf Sci, 2011, 257 (9):4296-4301

[5] 范治平, 魏增江, 刘伟良*等, 超疏水性材料表面的制备、应用和相关理论研究的新进展 [J].高分子通报, 2010,11:105

[4] Zhang Y, Fan Z, Xu C, Fang S, Liu X, Li X. Tough biohydrogels with interpenetrating network structure by bienzymatic crosslinking approach[J]. Eur Polym J. 2015;72:717-725.

[3] Sun X.L, Fan Z.P, Zhang L.D., Superhydrophobicity of silica nanoparticles modified with polystyrene [J]. Appl Surf Sci, 2010, 257:2308.

[2] Zhang LD, Liu WL, Fan ZP. Preparation of poly (styrene)-b-poly (acrylic acid)/γ-Fe2O3 composites[J]. Journal of Magnetism and Magnetic Materials, 2011, 323 (23):3087-3091

[1] Z.J. Wei, W.L. Liu, Z.P. Fan, S.H. Chen, X.Q. Wang, Based on ATRP method preparation of fluoropolymer superhydrophobic films[J]. Thin Solid Films, 2010, 518: 6972-6976.

 

中国专利:

[13] 中国专利:一种微藻基复合水凝胶及其制备方法 授权专利号: ZL 202410127234.6

[12] 中国专利:一种医用凝胶预混注射装置  申请号: 202323006446.9

[11] 中国专利:一种具有独特流变学和热学特性的复合凝胶及其制备方法和应用 申请号: 202311189959.X

[10] 中国专利:一种具有控温监测外壳的医用凝胶注射装置 申请号: 202322297744.1

[9] 中国专利:一种水凝胶、制备方法以及应用 申请号: 202210541202.1

[8] 中国专利:一种抗新型冠状病毒的可降解缓释凝胶 申请号: 202010228816.5

[7] 中国专利:一种缓释二氧化氯的水凝胶及其制备方法 授权专利号: ZL 202010318088.7

[6] 中国专利:一种可注射可吸收抗感染凝胶制剂复合物 授权专利号: ZL 201910770264.8

[5] 中国专利:一种医用凝胶注射装置 授权专利号: ZL 201921354253.3

[4] 中国专利:一种葡萄糖酸钙片的HPLC分析方法 申请号: 201910938473.9

[3] 中国专利:一种生物大分子互穿网络水凝胶及其制备方法 申请号: 2014102594945

[2] 中国专利:一种有机无机复合超疏水膜  授权专利号: CN202045931U

[1] 中国专利:苯乙烯接枝二氧化硅超疏水薄膜的制备方法  授权号: CN102140179B

联系方式:Office : 0635-8239345              

Email:Fanzhiping@lcu.edu.cn ; liangniao1122@126.com

Personal Web: https://www.researchgate.net/profile/Zhiping_Fan2

 

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