ENGLISH

师资队伍

张萍波

发布日期:2014-03-25 00:00|浏览量:   来源:化学与材料工程学院   化学与材料工程学院

一、个人简介

张萍波,女,生于1981年6月,博士,副教授,硕士生导师。2004年本科毕业于天津大学化学工程与工艺专业,2007年3月获天津大学化学工艺专业硕士学位,2009年6月获天津大学化学工艺专业博士学位。同年7月,进入江南大学化学与材料工程学院从事教学科研工作。2017年10月至2018年10月,新加坡国立大学访问学者。以“精细化学品的绿色合成”作为主要研究方向,在本研究领域有着扎实的实验基础和长期的经验积累,相关研究成果发表于Bioresource Technology、Applied Energy、Fuel、Chemical Engineering Journal、RSC advances等学术期刊,获国家授权专利多项。主持国家自然科学基金项目、教育部项目和江苏省产学研项目多项。在塑料助剂及精细化工方面,曾与多家企业合作,有很好的成果转化。2011年获中国石油和化学工业联合会二等奖,2014年获江苏省科学技术二等奖,2016年获中国商业联合会科技进步一等奖。曾获盐城市“515”领军人才,江苏省“六大人才高峰”高层次人才项目资助。

二、研究方向

1、高性能环保塑料助剂研发与产业化应用

2、高端功能性化妆品原料创制与功效产业化开发

3、精细化学品绿色合成工艺与高效催化转化技术

三、奖励与荣誉

1、生物基环保增塑剂的创制及产业化关键技术,高等学校科学研究科学技术进步二等奖,排名第2,2019年(省部级)

2、非均相催化合成脂肪酸甲酯关键技术及光催化氯化生产环保增塑剂,中国商业联合会科学技术奖——全国商业科技进步奖,一等奖,排名第2,2016年(省部级)

3、生物质替代石油原料制备环保增塑剂关键技术及产业化应用,江苏省科学技术二等奖,排名第5,2014年(省部级)

4、环保增剂清洁化生产关键技术及其产业化应用,中国石油和化学工业联合会技术发明二等奖,排名第6,2011年(省部级)

5、盐城市515领军人才,2015年(市级)

6、江苏省“六大”人才高峰,2016年(省部级)

7、江苏省创新创业人才计划引进“科技副总”,2019年(省部级)

四、学术成果

(一)代表性科研项目

1、国家自然科学基金面上项目(22378163),2024/01-2027/12,主持

2、国家自然科学基金青年基金项目(21106054),2012/01-2014/12,主持

3、教育部博士点基金项目(20100093120003),2011/01-2013/12,主持

4、江苏省产学研联合创新资金项目(BY2014023-08),2014/07-2016/06,主持

(二)近五年代表性论文(通讯作者或第一作者)

[1] Lu Y M, Jiang P P*,Zhang P B*, Wang N, Xu J,Chen S J. Bio‐Based Epoxy Cardanol Butyrate Ester as a High‐Efficiency Plasticizer: Antimicrobial Performance and Low Migration[J]. Journal of Vinyl and Additive Technology, 2026, 0:1-14.

[2] Zhao L Y, Lv Z H, Qi S Q,Zhang P B*, Zhang J W, Fan M M*. Efficient Glycerol Carbonylation over Multimetallic ZIF Catalysts: Synergy of Structure Regulation and Charge Optimization[J]. Catalysis Letters, 2026, 156: 22.

[3] Xu J, Qi S Q, Wang N,Zhang P B*, Fan M M*, Jiang P P, Chen S J, Sheng X X. Development of Curcumin Loaded Nanoparticles- Modified PBAT/PLA Smart Colorimetric Films with Antimicrobial and Antioxidant Properties[J]. Journal of Vinyl and Additive Technology, 2025, 0:1–13.

[4] Qi S Q, Xu J, Wang N,Zhang P B*, Fan M M*, Jiang P P, Leng Y. Multifunctional Pd/CCS-Cu-MOF Microcapsule Catalyst: ABiomimetic Design Inspired by Metalloenzyme Structuresfor Sustainable Glycerol Valorizing into Glycerol Carbonate[J]. Macromolecular Chemistry and Physics, 2025, 0: e00275.

[5] Wang N, Jiang P P*,Zhang P B*, Qi S Q, Xu J, Chen S J, Sheng X X, Gao J G, Gao H. Synthesis of multifunctional heat stabilizer bio-based Ade-Zn and its application in PVC[J]. Macromolecular Rapid Communications, 2025, 0: e00487.

[6] Li Z F, Xu J,Zhang P B*, Fan M M*, Jiang P P, Chen S J, Sheng X X. Modulation of PBAT/PU Blends by Gallic Acid-Modified MOF-5: Mechanical, Antimicrobial, and Antioxidant Enhancement Mechanism of a Novel Biodegradable Food Packaging Film [J]. Journal of Polymer Science, 2025, 63(15): 3184-3195.

[7] Wang Y,Zhang P B*, Fan M M*, Jiang P P, Bao Y M, Xia J L, Gao X W. Waterborne polyurethanes based on phenol-carbamate bonding: self-healing, shape memory, antifouling and bacteriostatic functions[J]. Progress in Organic Coatings, 2025, 208: 109506.

[8] Luo Q L, Qi S Q,Zhang P B*, Fan M M*. The Lewis acid-base microenvironment-induced confinement of the host metal in Pd/Ce-MOF drives glycerol carbonate synthesis[J]. Applied Organometallic Chemistry, 2025, 39: e70316.

[9] Lv Z H, Huang P P,Zhang P B*, Fan M M*. Indirect Synthesis of ZIF-8-Derived Cu–Pd Alloy Nanoparticles with Enhanced Surface Desorption of Glycerol for Promoting Oxidative Carbonylation Reactions [J]. European Journal of Inorganic Chemistry, 2025, 28: e202500080.

[10] Qi S Q, Lv Z H,Zhang P B*, Fan M M*, Jiang P P, Leng Y. Efficient Pd/Cu-MOF-2 catalysts: Enhancing stability and performance in glycerol oxidative carbonylation through structural optimization and surface interaction analysis[J]. Surfaces and Interfaces, 2025, 58:105823.

[11] Xu J,Zhang P B*, Fan M M*, Jiang P P, Chen S J, Sheng X X. Silane-modified MOF-5 as a compatibilizer for PBAT/PLA blends: Enhancement of mechanical properties, antimicrobial properties, and water barrier properties [J]. Polymer, 2025, 317:127875.

[12] Wang N, Jiang P P,Zhang P B*, Mei X, Zhu X Y, Chen S J, Sheng X X, Gao J G, Gao H. Development and synthesis of anti-zinc burn and antibacterial Schiff base zinc complexes as multi-functional thermal stabilizers for PVC formulations[J]. Journal of Vinyl and Additive Technology, 2025,31(3):589-603.

[13] Wang Y, Wang N,Zhang P B*, Jiang P P, Xia J L, Gao X W, Bao Y M. Synthesis of a gallic acid-based self-healing waterborne polyurethane with a thermo-responsive dynamic phenol-carbamate network for enhanced mechanical strength, antimicrobial activity, and shape memory properties [J]. Progress in Organic Coatings, 2024, 197:108878.

[14] Zhang J W, Lv Z H,Zhang P B*, Fan M M, Jiang P P, Leng Y. Confinement of ultrasmall Pd clusters within nanosized ZIF-8-derived Cu-N-C materials for efficient and stable synthesis of glycerol carbonate from glycerol[J]. Catalysis Letters, 2024, 154:6389–6399.

[15] Lv Z H, Huang P P,Zhang P B*, Fan M M, Jiang P P, Leng Y. Efficient synthesis of glycerol carbonate by doping metallic copper in palladium-catalyzed glycerol system for carbonylation reaction[J]. Catalysis Science & Technology, 2024, 14:145-152.

[16] Wang Y, Yu Z X,Zhang P B*, Wang Y T, Chang Z, Jiang P P, Xia J L, Gao X W, Bao Y M. Development of a bio-based self-healing waterborne polyurethane with dynamic phenol-carbamate network for enhanced antimicrobial and antiseptic performance [J]. Journal of Polymer Science, 2024, 62(18):4277-4288.

[17] Wang Y, Chen L, Jiang P P,Zhang P B*, Bao Y M, Gao X W, Xia J L. Mechanically robust room-temperature self-healing waterborne polyurethane with antimicrobial properties constructed through multiple dynamic bonds [J]. Journal ofPolymer Research, 2023, 30: 387.

[18]Fan X L,Zhang P B*, Fan M M, Jiang P P, Agus Haryono, Leng Y. Recent research on lipase immobilization with multipoint covalent treatment by glutaraldehyde[J]. Current Organic Chemistry, 2023, 27(4):248-259.

[19]Fan X L,Zhang P B*, Fan M M, Jiang P P, Leng Y. Effect of glutaraldehyde multipoint covalent treatments on immobilized lipase for hydrolysis of acidified oil[J].Applied Biochemistry and Biotechnology, 2023, 195:6942–6958.

[20] Fan X L,Zhang P B*, Fan M M, Jiang P P, Leng Y. Immobilized lipase for sustainable hydrolysis of acidified oil to produce fatty acid [J]. Bioprocess and Biosystems Engineering, 2023, 46:1195-1208.

[21] Chen L, Dai Z D, Lou W X, Jiang P P,Zhang P B*, Bao Y M, Gao X W, Xia J L. Synthesis of self-healing soybean oil-based waterborne polyurethane based on Diels–Alder reaction[J]. Journal of Applied Polymer Science, 2022, 139(30):e52694.

[22] Yue C G, Lin Y H, Sang J T, Li Z Y,Zhang P B*, Fan M M*, Leng Y, Jiang P P, Agus Haryono. BiOBr/Bi24O31Br10heterojunctions in situ prepared by microwave-assisted hydrothermal method for aerobic oxidation of glycerol to formic acid[J]. Materials Today Communications, 2022, 31:103270.

[23]Zhang P B*, Yue C G, Fan M M*, Agus Haryono, Leng Y, Jiang P P. The selective oxidation of glycerol over metal-free photocatalysts: insights into the solvent effect on catalytic efficiency and product distribution[J]. Catalysis Science & Technology, 2021, 11:3385-3392.

[24]Zhang P B, Liu P, Fan M M*, Jiang P P, Haryono A. High-performance magnetite nanoparticles catalyst for biodiesel production: immobilization of 12-tungstophosphoric acid on SBA-15 works effectively[J]. Renewable Energy, 2021, 175: 244-252.

[25] Yue C G, Li C H,Zhang P B*, Fan M M*, Leng Y, Jiang P P. Efficiently selective oxidation of glycerol by BiQDs/BiOBr-Ov: Promotion of molecular oxygen activation by Bi quantum dot and oxygen vacancy[J]. New Journal of Chemistry, 2021, 45:12938-12944.

[26]Zhang P B*, Lu Y D, Fan M M, Jiang P P, Bao Y M, Gao X W, Xia J L. Role of cellulose-based composite materials in synergistic reinforcement of environmentally friendly waterborne polyurethane[J]. Progress in Organic Coatings, 2020, 147:105811.

[27]Zhang P B*, Chen X, Leng Y, Dong Y M, Jiang P P, Fan M M*. Biodiesel production from palm oil and methanol via zeolite derived catalyst as a phase boundary catalyst: An optimization study by using response surface methodology[J]. Fuel, 2020, 272:117680.

(三)代表性授权专利

[1]张萍波,范明明,蒋平平.ZL 201110370172.4,2014-08-06

[2]张萍波,韩秋菊,范明明,蒋平平.ZL 201310131745.7,2014-08-06

[3]张萍波,韩秋菊,常静,范明明,蒋平平.ZL 201310643639.7,2015-09-30

[4]张萍波,石敏,范明明,蒋平平.ZL201410555089.8,2016-08-24

[5]张萍波,石敏,范明明,蒋平平.ZL201510242479.4,2017-01-25

[6]张萍波,范明明,顾丹,蒋平平.ZL201710669759.2,2020-07-03

[7]张萍波,岳成光,范明明. ZL 202011041158.5,2021-06-25

[8]张萍波,陆亚东,范明明. ZL201910421499.6,2021-12-03

[9]张萍波,岳成光,范明明,蒋平平. ZL 201911373161.4,2023-04-18

[10]张萍波,吕志豪,范明明. ZL 202311136453.2,2026-02-24

五、联系方式

通讯地址:江苏省无锡市蠡湖大道1800号,江南大学化学与材料工程学院(化妆品学院)

邮编:214122

联系电话:13382880366

Email:pingbozhang@126.com